POPULARITY
7 episodes with Long QT syndrome
2 episodes with Long QT syndrome
2 episodes with Long QT syndrome
4 episodes with Long QT syndrome
3 episodes with Long QT syndrome
2 episodes with Long QT syndrome
2 episodes with Long QT syndrome
2 episodes with Long QT syndrome
ESC TV Today brings you concise analysis from the world's leading experts, so you can stay on top of what's happening in your field quickly. This episode covers: Cardiology This Week: A concise summary of recent studies MINOCA Long QT Syndrome Statistics Made Easy: subgroup analyses and tests for interaction Host: Rick Grobbee Guests: Carlos Aguiar, Martha Gulati, Dieter Nuyens Want to watch that episode? Go to: https://esc365.escardio.org/event/1149 Disclaimer This programme is intended for health care professionals only and is to be used for educational purposes. The European Society of Cardiology (ESC) does not aim to promote medicinal products nor devices. Any views or opinions expressed are the presenters' own and do not reflect the views of the ESC. Declarations of interests Stephan Achenbach, Rick Grobbee, Martha Gulati, Nicolle Kraenkel and Dieter Nuyens have declared to have no potential conflicts of interest to report. Carlos Aguiar has declared to have potential conflicts of interest to report: personal fees for consultancy and/or speaker fees from Abbott, AbbVie, Alnylam, Amgen, AstraZeneca, Bayer, Boehringer-Ingelheim, Daiichi-Sankyo, Ferrer, Gilead, Lilly, Novartis, Pfizer, Sanofi, Servier, Tecnimede. Davide Capodanno has declared to have potential conflicts of interest to report: Sanofi, Novo Nordisk, Terumo, Medtronic. Emma Svennberg has declared to have potential conflicts of interest to report: institutional research grants from Abbott, Astra Zeneca, Bayer, Bristol-Myers, Squibb-Pfizer, Boehringer-Ingelheim, Johnson & Johnson, Merck Sharp & Dohme.
At age 6, Zach Vogel's identity was rooted in baseball. He was already praying that God would make him a major league ball player. Then four years later when he collapsed for the second time during a game, he was diagnosed with Long QT Syndrome, a heart signaling disorder characterized by arrhythmia that caused him to pass out. It was more serious than that, though. It meant he had an increased risk of sudden death. At 10, it appeared Zach's dreams were over before they began. What followed were years of depression. Hear about his amazing recovery, and how it makes him the perfect person to head Identity Sports, a nonprofit that provides events like Tales from the Tour and Tales from the Dugout as a platform for athletes to share their faith. Click here to learn more about Identity Sports: https://www.identitysports.com/ Original air date: April 11, 2024.See omnystudio.com/listener for privacy information.
Imagine living in a family where sudden deaths were a tragic norm. That's the reality heart mom Jackie Renford faced before the fateful identification of Long Q-T Syndrome, a genetic heart condition, in her family. Her misdiagnosis and the subsequent loss of her son and daughter have inspired her to become an advocate for early detection and treatment of this life-threatening condition. Journey with us as she shares her family's heart-wrenching story and opens up about the ongoing battle with Long Q-T Syndrome.Jackie's experiences with Long QT Syndrome open up a world that is often misunderstood. How do you navigate through life when you and multiple family members are affected by a genetic heart condition? Jackie gives us a first-hand account of the symptoms, diagnosis, and treatment of Long Q-T Syndrome, as well as the emotional toll it takes. She emphasizes the importance of regular medical check-ups, cautious medication use, and a proper diagnosis. Find out how her family is rallying around this, the importance of comprehensive medical care, and how they're facing the realities and challenges of living with Long QT Syndrome.We may not choose the trials we face, but we can choose to find blessings amidst adversity. In the spirit of finding light in the darkness, I share my own experiences of living with a congenital heart defect and the support that has been instrumental in my journey. As we approach the holiday season, I encourage you to join us in providing free programming for the congenital heart defect and bereaved communities. It's through our stories that we realize we are not alone, and it's in our blessings that we find hope. Join us for a profound understanding of Long QT Syndrome and a message of resilience and hope.& so much moreA bi-monthly podcast where we share the stories of our Caregivers, patients and...Listen on: Apple Podcasts SpotifySupport the showAnna's Buzzsprout Affiliate LinkBaby Blue Sound CollectiveSocial Media Pages:Apple PodcastsFacebookInstagramMeWeTwitterYouTubeWebsite
Only 20% of patients with atrial fibrillation are symptomatic for all their AFib episodes. Guest Dan Sorajja, MD, FACC, FHRS describes AFib diagnosis and patient-based treatment decisions for AFib. Dr. Sorajja also discusses Long QT Syndrome and team-based care.PCNA AFib patient tools: https://pcna.net/clinical-resources/patient-handouts/atrial-fibrillation-tools-and-handouts/PCNA HCP tools (including pocket guide and screening resources): https://pcna.net/clinical-resources/provider-tools/atrial-fibrillation-provider-tools/CE Course: Stroke Prevention Through AFib Recognition & Treatment: https://pcna.net/online-course/start-stroke-prevention-through-afib-recognition-and-treatment/See Privacy Policy at https://art19.com/privacy and California Privacy Notice at https://art19.com/privacy#do-not-sell-my-info.
Commentary by Dr. Valentin Fuster
In this episode, Dr Jennie Han discusses key points from a recent case report published in EHJ – Case Reports.
In this episode from July 2019, we feature two interviews. The first is with Marco Perez, MD, a cardiac electrophysiologist and director of the Stanford Inherited Cardiac Arrhythmia Clinic, about his work and research in long QT syndrome. Later in the podcast, we speak with Jasmine Wylie, a Family Support and Engagement Advisor at the Sudden Arrhythmia Death Syndromes (SADS) Foundation, about her experience living with long QT.
Commentary by Dr. Valentin Fuster
Commentary by Dr. Valentin Fuster
This week's show features a panel discussion between authors Adrian Wells and Hyeon Chang Kim as they discuss their articles "Improving the Effectiveness of Psychological Interventions for Depression and Anxiety in Cardiac Rehabilitation PATHWAY—A Single-Blind, Parallel, Randomized, Controlled Trial of Group Metacognitive Therapy" and "Associations of Ideal Cardiovascular Health and Its Change During Young Adulthood With Premature Cardiovascular Events: A Nationwide Cohort Study." Dr. Carolyn Lam: Welcome to Circulation on the Run, your weekly podcast summary and backstage pass to the journal and its editors. We're your co-hosts. I'm Dr. Carolyn Lam, Associate Editor from the National Heart Center and Duke National University of Singapore. Dr. Greg Hundley: And I'm Dr. Greg Hundley, also your co-host. And Associate Editor, Director of the Pauley Heart Center, VCU Health in Richmond, Virginia. Dr. Carolyn Lam: Greg, we're starting off the month with double features, and these are just so interesting. The first paper talks about psychological interventions for depression and anxiety in cardiac rehabilitation. And the next talks about ideal cardiovascular health and its change during young adulthood and how that relates to premature cardiovascular events. Cool, huh? Dr. Greg Hundley: Absolutely. Well, Carolyn. How about we grab a cup of coffee and start discussing some of the other articles in the issue? And I could go first. Carolyn, the first article that I've got is from Mrs. Elizabeth Jordan from Ohio State University Wexner Medical Center. And it really pertains to cardiomyopathies. And remember, Carolyn, classically, we categorize hypertrophic, dilated, and arrhythmogenic right ventricular cardiomyopathy. And each has a signature genetic theme. Hypertrophic cardiomyopathy and ARVC are largely understood as genetic diseases of sarcomere or desmosome proteins. But in contrast, there are over 250 genes spanning more than 10 gene ontologies that have been implicated in dilated cardiomyopathy. And therefore, it really represents a very complex and diverse genetic architecture. So to clarify this, a systematic curation of evidence to establish the relationship of genes with dilated cardiomyopathy was conducted by an international panel with clinical and scientific expertise in dilated cardiomyopathy genetics. And they evaluated evidence supporting monogenic relationships of genes with idiopathic dilated cardiomyopathy. Dr. Carolyn Lam: Oh, wow. That sounds like a lot of work. And what did they find, Greg? Dr. Greg Hundley: Right, Carolyn. So in the curation of 51 genes, 19 had high evidence. 12 are definitive strong, and seven moderate. And notably, these 19 genes only explain the minority of cases, leaving the remainder of dilated cardiomyopathy genetic architecture really incompletely addressed. And clinical genetic testing panels include most high evidence genes. However also, the panel noted that genes lacking robust evidence are very commonly observed clinically. Dr. Greg Hundley: So Carolyn, the take home message from this international panel is that while dilated cardiomyopathy genetic testing panels include an average of about 60 genes, when curating published evidence for dilated cardiomyopathy, only 19 have really emerged as high levels of evidence. And then in this study, 51 genes were evaluated. And the 19 genes appraised as high evidence were recommended to be routinely used in the genetic evaluation of dilated cardiomyopathy. And one more point. Rare variants from genes without moderate, strong, or definitive evidence should not be used in clinical practice to predict dilated cardiomyopathy risk most importantly when also you're screening at risk family members. Dr. Carolyn Lam: Wow. Very nice. Stunning numbers. Well, my paper is identifying a novel therapeutic target in pulmonary arterial hypertension. Do you want to know what that is? Dr. Greg Hundley: Ah, yes, Carolyn. Very interesting. So what is it? Dr. Carolyn Lam: It's switch-independent 3A. Which is an epigenetic modifier, which is drastically down-regulated in pulmonary arterial hypertension patients and rodent models of pulmonary arterial hypertension. And strongly associated with decreased bone morphogenic protein receptor type two, or BMPR2 expression. So this switch-independent 3A overexpression up-regulated BMPR2 expression by modulating critical epigenetic pathways and decreasing a specific transcription factor binding to the BMPR2 promoter in pulmonary vascular smooth muscle cells. Furthermore, aerosolized lung-targeted gene transfer of adeno-associated virus zero type one and containing switch-independent 3A reversed and prevented pulmonary arterial hypertension phenotype in preclinical animal models. So this beautiful study, from Dr. Hadri from Icahn School of Medicine at Mount Sinai in New York and colleagues, really suggests that switch-independent 3A can be a clinically relevant molecule for the treatment of pulmonary arterial hypertension. Dr. Greg Hundley: Wow, Carolyn. Really nice. Very intricate science for the study of pulmonary hypertension. Well, my next paper actually comes to us from Dr. Joe Hill and colleagues at UT Southwestern Medical Center. And Carolyn, as we know, cardiac hypertrophy is an independent risk factor for heart failure. Of course, the leading cause of morbidity and mortality globally. And the calcineurin NFAT, or nuclear factor of activated T-cells pathway, and the MAP kinase ERK, or extra cellular signal regulated kinase pathway, contributes to the pathogenesis of cardiac hypertrophy as an interdependent network of signaling cascades. However, Carolyn, how these pathways interact really remains unclear. And so Dr. Hill and colleagues engineered a cardiomyocyte-specific ETS2, a member of the E26 transformation specific sequence or ETS domain family knockout mouse, and investigated the role of ETS2 in cardiac hypertrophy. Primary cardiomyocytes were also used to evaluate ETS2 function in cell growth. Dr. Carolyn Lam: Wow. Okay. So what were the results, Greg? Dr. Greg Hundley: Right, Carolyn. Three main findings. First, ETS2 is activated by ERK1/2, or extracellular signal-regulated kinase 1/2, in both hypertrophied murine hearts and in human dilated cardiomyopathy. Second, ETS2 is required for both pressure overload, and calcineurin induced cardiac hypertrophy responses involving signaling cascades distinct from, but interdependent with ERK1/2 signaling. And third, this group discovered that ETS2 synergizes with NFAT to transactivate RCAN1-4, an established downstream target of NFAT, or nuclear factor of activated T-cells. And they identified an MIR-223 as a novel transcriptional target of NFAT ETS2 in cardiomyocytes. Dr. Carolyn Lam: Wow. Wow. That sounds like a lot of detailed work. Could you tell us what the clinical implications are, Greg? Dr. Greg Hundley: You bet, Carolyn. So in aggregate, these findings unveil a previously unrecognized molecular interaction between two conical hypertrophic signaling pathways, MAP kinase-driven hypertrophy, and calcineurin driven hypertrophy. And therefore, as pathological cardiac hypertrophy is an established risk factor for heart failure development, this unveiling of novel signaling mechanisms really is of potential clinical relevance. Dr. Carolyn Lam: Thanks, Greg. Well, let's round up with what else there is in this week's issue. There's a Frontiers paper by Dr. Chris Granger. And it's a big call to action to the cardiology community, to incorporate SGLT2 inhibitors and GLP-1 receptor agonists for cardiovascular and kidney disease risk reduction. There's a Joint Opinion piece from the American Heart Association, World Heart Federation, American College of Cardiology, and European Society of Cardiology on, “The Tobacco Endgame: Eradicating a Worsening Epidemic,” by Dr. Elkind. Dr. Greg Hundley: Oh great, Carolyn. Well, I've got an On My Mind piece from Professor Bhatt. And it's entitled, “Does SGLT1 inhibition Add Benefit to SGLT2 Inhibition in Type 2 Diabetes Mellitus?” And next, Dr. Viskin has an ECG Challenge entitled, “Long QT Syndrome and Torsade de Pointes Ultimately Treated With Quinidine, The Concept of Pseudo Torsade de Pointes.” And then finally, there's a Letter to the Editor by Dr. Lu regarding the article, “Association of Body Mass Index and Age with Morbidity and Mortality in Patients Hospitalized with COVID-19, Results from the American Heart Association COVID-19 Cardiovascular Disease Registry.” Well, Carolyn, I can't wait to get on to this double feature. Dr. Carolyn Lam: Me too. Let's go. Dr. Greg Hundley: Welcome, listeners, to our feature discussion today. And again, we're going to create today a forum, because we have two very interesting papers to present during this timeframe. Our first is going to come to us from Dr. Adrian Wells from University of Manchester. And our second paper will come to us from Dr. Hyeon Chang Kim from Yonsei University. I want to welcome you both, gentlemen. And Adrian, I would like to start with you. Tell us a little bit about the background related to your study. And then what was the hypothesis that you wanted to address? Dr. Adrian Wells: Okay, well thank you for inviting me to take part in this podcast. Following cardiac events, around one in three individuals will develop significant anxiety and depression symptoms. And we know that anxiety and depression can have an impact on prognosis, quality of life, future outcomes. Psychological treatment isn't routinely offered in cardiac rehabilitation for anxiety and depression, despite the fact that we identified that many of our patients felt that they would benefit from a psychological intervention to address these issues. And they felt that their needs were not really being met. So our primary question was, can we improve psychological outcomes in patients with cardiovascular disease? Dr. Greg Hundley: Very nice. And Adrian, what was your study population? And also, what was your study design? Dr. Adrian Wells: So we selected patients who entered cardiac rehabilitation in the UK. So these are patients with acute coronary syndrome, revascularization, stable heart failure, heart transplantation, and so on. And so, a wide group of individuals. We recruited 332 patients, all of whom had had anxiety and depression scores of eight or more. So these were people showing mild to severe levels of psychological distress. We conducted a two arm single blind randomized controlled trial, with 332 patients who were randomly allocated to one of these two conditions. And we assessed anxiety and depression symptoms before treatment at four months and at 12 months. Dr. Greg Hundley: Describe a little bit some of the specifics of your intervention. And then what did you find? Dr. Adrian Wells: We use relatively recent new treatment called metacognitive therapy. And this was delivered in a group format over six sessions. And we trained cardiac rehabilitation staff, nurse consultants, physiotherapists, in the delivery of this intervention. Metacognitive therapy works on helping patients discover unhelpful patterns of thinking, such as worrying and ruminating ,and excessive threat monitoring. And to reduce those patterns of thinking that contribute to anxiety, depression, and poor adaptation following stressful life experiences. Dr. Greg Hundley: And what did you find? Dr. Adrian Wells: Well, what we found was that the addition of metacognitive therapy to treatment to usual cardiac rehabilitation, significantly improved outcomes at four months and 12 months. What was striking about this was that our effect sizes were modest and moderate to large. They seem to be larger than those obtained in other studies or psychological treatments. And of note, the treatment seemed to impact well on both anxiety and depression symptoms. Whereas other types of intervention evaluated in the past have tended to treat the depression, but not so much the anxiety. Dr. Greg Hundley: Very good. So it sounds like a group-based intervention. And I'm assuming maybe participants interacted not only with your staff, but with one another. How would you put your results really in the context with other research that's going on in this space? Dr. Adrian Wells: Well, there have been a number of studies in the past that have looked at individual and group-based treatments, and patient preference for different types of intervention. I think this is the first study to use a clear manualized intervention that's based on the psychological theory of mechanisms that contribute to the maintenance of psychological problems. Obviously, this tended to use more prescriptive interventions like anxiety management, stress management, taking techniques from a range of different sources. So I think there's a difference of conceptual basis to this kind of intervention. And it's something that is highly manualized and structured, and in fact can be delivered by a range of different healthcare professionals. Dr. Greg Hundley: Very nice. And also during cardiovascular rehab. Correct? Dr. Adrian Wells: Absolutely, yeah. During cardiac rehab. One interesting finding... And we were a little concerned that this might adversely affect attendance at cardiac rehab. But we found that the treatment was well tolerated, and it didn't have any negative impact on attendance at these other sessions. Dr. Greg Hundley: Excellent. Well, congratulations on this new finding. Well, listeners, we're next going to turn to Dr. Hyeon Chang Kim from Yonsei University in Korea. And Yong-Chan, could you describe for us also the background related to your study, and the hypothesis that your research wanted to test? Dr. Hyeon Chang Kim: Thank you for inviting me to this wonderful discussion. South Korea is among the countries with the lowest cardiovascular mortality in the world. And the rate is even decreasing. However, cardiovascular risk factor is worsening. Especially in younger generation in Korea. So these young people may not have a very high cardiovascular risk, but I wanted to know the potential impact of worsening cardiovascular risk profile in this younger Korean generation. And furthermore, I wanted to know how much we can lead youth cardiovascular risk by improving their cardiovascular health profile. Dr. Greg Hundley: Very nice. And so tell us about your study design and what was the study population, related to your study? Dr. Hyeon Chang Kim: My study is basically based on the national health checkup program and national health insurance claim database. In Korea, adults over the age of 20 and employed workers of all ages are required to take general health checkup every two years. The participation rate is between 70 and 80%. So we identified three and a half million adults, age 20 to 39 years, who complete the health checkup. And cardiovascular health scores was calculated as the number of ideal cardiovascular health component, which include non-smoking, moderate physical activity three times a week, body mass index below 2030, normal blood pressure, normal cholesterol and normal fasting glucose. So the score can range from zero to six. And higher score meaning better cardiovascular health. Our outcomes were myocardial infarction, stroke, heart failure, and cardiovascular deaths in about 16 years. In addition, we also evaluate the risk of cardiovascular disease. According to two year change in how the vascular health score using repeated health checkup data. Dr. Greg Hundley: Very nice. So evaluating a set of behavioral patterns and risk factors in younger individuals, and then predicting what their longer term adverse cardiovascular outcomes would be. So what did you find? Dr. Hyeon Chang Kim: So even in this relatively low risk population, better cardiovascular health score was associated with significantly lower cardiovascular risk. About 20% reduction per one point higher score. And more importantly, people with improving cardiovascular score over two years showed leading toward cardiovascular risk. Even if their baseline cardiovascular health score was very low. Dr. Greg Hundley: Really unique findings. Tell us about the impact of your results relative to other studies published in this space. And was this also.... This was unique, because it's an Asian population, Dr. Hyeon Chang Kim: Asian population. And we are among the very low risk population. And even in this low risk population, cardiovascular health score was... Fear can be a good predictor of cardiovascular risk. And compared to many Western countries, we have very low cardiovascular risk. And our population was younger than most other studies. So we can provide some evidence that even in the higher risk population, they can do much better, based on our study. Another important thing, we can check the impact of a changing cardiovascular score, even in the younger generation. Dr. Greg Hundley: Very good. And just as a frame of reference for our listeners. Give us some characteristics, if you wouldn't mind, on what really constitutes practically a low risk score, versus what would constitute a high risk score Dr. Hyeon Chang Kim: In this younger Korean population, their cigarette smoking, and their obesity, and physical inactivity are the most common causes of worsening cardiovascular profile. And the behavioral risk factor also can attack the blood glucose and cholesterol blood pressure. So in this younger generation, they're keeping the good behavior. Past behavior is very important and it's beneficial in the very long-term. Dr. Greg Hundley: Very nice, well listeners. We're going to turn to our experts here. Two very interesting studies. And ask them both, what do they think is the next study that needs to be performed in their respective areas of research? So Yong-Chan, we'll start with you. Since we just discussed your paper. What do you think is the next study to be performed really in this sphere of research. Dr. Hyeon Chang Kim: Korea is a relatively low cardiovascular risk, has a very small size, and no racial diversity. But even in this country, disparity and inequality in cardiovascular health is becoming an important issue. So I want to identify subcultural relatively poor cardiovascular health among younger population. And also I want to find ways to improve their cardiovascular score. The conventional approaches, such as education and mass campaign, are less effective oppose this younger adults have a poor socioeconomic status. So, we may need to develop newer target-specific strategies to improve their cardiovascular health. Dr. Greg Hundley: Good. And Dr. Wells, our agent will turn next to you. What do you see is the next area of investigation or research study that needs to be performed in your sphere of interests? Dr. Adrian Wells: Well, I think the next step is to look at rollout of this intervention. Is that feasible, and how acceptable is this to cardiac services? In fact, the National Institute of Health Research have just awarded us some funding to examine feasibility and barriers to implementation in the healthcare system. In addition to that, we're beginning to examine the effects of metacognitive therapy with other health conditions, such as cancer in children and adolescents. Dr. Greg Hundley: Nice. Well listeners, we have had just a wonderful discussion today from both Dr. Adrian Wells from University of Manchester. Who brought to us combining a group-mediated, psychological stress-reducing, anxiety-reducing, intervention to the cardiac rehab sphere. And how impactful that was in reducing both anxiety, and overall depressive symptoms. And then also exciting research from Dr. Hyeon Chang Kim from South Korea. Identifying for us that in Asian population, as well as what we know in other races, those individuals in their twenties to thirties with favorable lifestyle habits, have reduced cardiovascular risk much later in life. Dr. Greg Hundley: Well, on behalf of both Carolyn and myself, we want to wish you a great week. And we'll catch you next week on the run. Dr. Greg Hundley: This program is copyright of the American Heart Association, 2021. The opinions expressed by speakers in this podcast are their own, and not necessarily those of the editors, or of the American Heart Association. For more, visit ahajournals.org.
As the push for a Universal Healthcare system in the United States becomes more and more popular among the American people, we’re beginning to have more public conversations about access to and affordability of medical care. While many of us may not consider our health insurance until we need it, for those with chronic conditions, the American medical system can be a nightmare of insurance claims bureaucracy and that prevents patients from getting the care they need at a cost they can afford. Worse, the rising prices of drugs and treatments developed in this for-profit system mean that some patients receive more medical care than they want or need, sometimes at the expense of their quality of life. When a young Katherine E. Standefer was suddenly diagnosed with Long QT Syndrome—the same congenital heart condition as her younger sister—she was faced with what felt like an impossible choice: implant a cardiac defibrillator and be forever tied to the American Medical System, or take a chance with death. In her stunning debut, Lightning Flowers: My Journey to Uncover the Cost of Saving a Life (Little, Brown, Spark, 2020) Standefer explores this system as both a patient and a consumer, visiting factories in California as well as mining communities in Rwanda and Madagascar where the metals in her defibrillator were sourced to learn more about the true human cost of the device that was meant to save her life. Throughout, Standefer wonders whether her life is worth this price, and asks us to reimagine approaches to care—both in medical and environmental. Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://newbooksnetwork.supportingcast.fm/technology
As the push for a Universal Healthcare system in the United States becomes more and more popular among the American people, we’re beginning to have more public conversations about access to and affordability of medical care. While many of us may not consider our health insurance until we need it, for those with chronic conditions, the American medical system can be a nightmare of insurance claims bureaucracy and that prevents patients from getting the care they need at a cost they can afford. Worse, the rising prices of drugs and treatments developed in this for-profit system mean that some patients receive more medical care than they want or need, sometimes at the expense of their quality of life. When a young Katherine E. Standefer was suddenly diagnosed with Long QT Syndrome—the same congenital heart condition as her younger sister—she was faced with what felt like an impossible choice: implant a cardiac defibrillator and be forever tied to the American Medical System, or take a chance with death. In her stunning debut, Lightning Flowers: My Journey to Uncover the Cost of Saving a Life (Little, Brown, Spark, 2020) Standefer explores this system as both a patient and a consumer, visiting factories in California as well as mining communities in Rwanda and Madagascar where the metals in her defibrillator were sourced to learn more about the true human cost of the device that was meant to save her life. Throughout, Standefer wonders whether her life is worth this price, and asks us to reimagine approaches to care—both in medical and environmental. Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://newbooksnetwork.supportingcast.fm/science-technology-and-society
As the push for a Universal Healthcare system in the United States becomes more and more popular among the American people, we’re beginning to have more public conversations about access to and affordability of medical care. While many of us may not consider our health insurance until we need it, for those with chronic conditions, the American medical system can be a nightmare of insurance claims bureaucracy and that prevents patients from getting the care they need at a cost they can afford. Worse, the rising prices of drugs and treatments developed in this for-profit system mean that some patients receive more medical care than they want or need, sometimes at the expense of their quality of life. When a young Katherine E. Standefer was suddenly diagnosed with Long QT Syndrome—the same congenital heart condition as her younger sister—she was faced with what felt like an impossible choice: implant a cardiac defibrillator and be forever tied to the American Medical System, or take a chance with death. In her stunning debut, Lightning Flowers: My Journey to Uncover the Cost of Saving a Life (Little, Brown, Spark, 2020) Standefer explores this system as both a patient and a consumer, visiting factories in California as well as mining communities in Rwanda and Madagascar where the metals in her defibrillator were sourced to learn more about the true human cost of the device that was meant to save her life. Throughout, Standefer wonders whether her life is worth this price, and asks us to reimagine approaches to care—both in medical and environmental. Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://newbooksnetwork.supportingcast.fm/literature
As the push for a Universal Healthcare system in the United States becomes more and more popular among the American people, we’re beginning to have more public conversations about access to and affordability of medical care. While many of us may not consider our health insurance until we need it, for those with chronic conditions, the American medical system can be a nightmare of insurance claims bureaucracy and that prevents patients from getting the care they need at a cost they can afford. Worse, the rising prices of drugs and treatments developed in this for-profit system mean that some patients receive more medical care than they want or need, sometimes at the expense of their quality of life. When a young Katherine E. Standefer was suddenly diagnosed with Long QT Syndrome—the same congenital heart condition as her younger sister—she was faced with what felt like an impossible choice: implant a cardiac defibrillator and be forever tied to the American Medical System, or take a chance with death. In her stunning debut, Lightning Flowers: My Journey to Uncover the Cost of Saving a Life (Little, Brown, Spark, 2020) Standefer explores this system as both a patient and a consumer, visiting factories in California as well as mining communities in Rwanda and Madagascar where the metals in her defibrillator were sourced to learn more about the true human cost of the device that was meant to save her life. Throughout, Standefer wonders whether her life is worth this price, and asks us to reimagine approaches to care—both in medical and environmental. Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://newbooksnetwork.supportingcast.fm/environmental-studies
As the push for a Universal Healthcare system in the United States becomes more and more popular among the American people, we’re beginning to have more public conversations about access to and affordability of medical care. While many of us may not consider our health insurance until we need it, for those with chronic conditions, the American medical system can be a nightmare of insurance claims bureaucracy and that prevents patients from getting the care they need at a cost they can afford. Worse, the rising prices of drugs and treatments developed in this for-profit system mean that some patients receive more medical care than they want or need, sometimes at the expense of their quality of life. When a young Katherine E. Standefer was suddenly diagnosed with Long QT Syndrome—the same congenital heart condition as her younger sister—she was faced with what felt like an impossible choice: implant a cardiac defibrillator and be forever tied to the American Medical System, or take a chance with death. In her stunning debut, Lightning Flowers: My Journey to Uncover the Cost of Saving a Life (Little, Brown, Spark, 2020) Standefer explores this system as both a patient and a consumer, visiting factories in California as well as mining communities in Rwanda and Madagascar where the metals in her defibrillator were sourced to learn more about the true human cost of the device that was meant to save her life. Throughout, Standefer wonders whether her life is worth this price, and asks us to reimagine approaches to care—both in medical and environmental. Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://newbooksnetwork.supportingcast.fm/new-books-network
As the push for a Universal Healthcare system in the United States becomes more and more popular among the American people, we're beginning to have more public conversations about access to and affordability of medical care. While many of us may not consider our health insurance until we need it, for those with chronic conditions, the American medical system can be a nightmare of insurance claims bureaucracy and that prevents patients from getting the care they need at a cost they can afford. Worse, the rising prices of drugs and treatments developed in this for-profit system mean that some patients receive more medical care than they want or need, sometimes at the expense of their quality of life. When a young Katherine E. Standefer was suddenly diagnosed with Long QT Syndrome—the same congenital heart condition as her younger sister—she was faced with what felt like an impossible choice: implant a cardiac defibrillator and be forever tied to the American Medical System, or take a chance with death. In her stunning debut, Lightning Flowers: My Journey to Uncover the Cost of Saving a Life (Little, Brown, Spark, 2020) Standefer explores this system as both a patient and a consumer, visiting factories in California as well as mining communities in Rwanda and Madagascar where the metals in her defibrillator were sourced to learn more about the true human cost of the device that was meant to save her life. Throughout, Standefer wonders whether her life is worth this price, and asks us to reimagine approaches to care—both in medical and environmental. Learn more about your ad choices. Visit megaphone.fm/adchoices Support our show by becoming a premium member! https://newbooksnetwork.supportingcast.fm/medicine
With Peter Schwartz and Luca Sala, Istituto Auxologico Italiano, Milan - Italy Link to paper Link to editorial
Listen as Dr. Gary Dhillon presents on Long QT syndrome and pearls for anesthesiologists and intensivists. Initial publication: February 9, 2021. Please visit: www.openpediatrics.org OPENPediatrics™ is an interactive digital learning platform for healthcare clinicians sponsored by Boston Children's Hospital and in collaboration with the World Federation of Pediatric Intensive and Critical Care Societies. It is designed to promote the exchange of knowledge between healthcare providers around the world caring for critically ill children in all resource settings. The content includes internationally recognized experts teaching the full range of topics on the care of critically ill children. All content is peer-reviewed and open access-and thus at no expense to the user. For further information on how to enroll, please email: openpediatrics@childrens.harvard.edu
Cardiology MRCP part 1
Congenital causes, Drugs, Others
MRCP part 1 Cardiology audio notes
Commentary by Dr. Valentin Fuster
Very common drugs like antibiotics and antiemetics can cause acquired long QT syndrome. Dive into the episode to know more. --- This episode is sponsored by · Anchor: The easiest way to make a podcast. https://anchor.fm/app --- Send in a voice message: https://anchor.fm/snapmd/message
Commentary by Dr. Valentin Fuster
Julia Stevens was one of Australia's top triathletes when doctors told her they needed to implant a tiny defibrillator inside her chest wall to keep her alive
Julia Stevens was one of Australia's top triathletes when doctors told her they needed to implant a tiny defibrillator inside her chest wall to keep her alive
There is hope in every diagnosis and in every diagnosis there is wellness. In this episode, host Jana Short speaks with Casey Piatt and they discuss a rare genetic disorder and her life story she hopes will impact others. What is your story of hope? … It is American Heart Health Month. Are you living your best holistic life? Everyone has a story, it’s how you impact the world with yours that matters. Did you know? We can have silent things in our bodies that we aren’t aware of until something happens. In this episode, host Jana Short speaks with Casey Piatt and they discuss …. • Casey shares her story of hope • Casey shares a genetic disorder called Long Qt Syndrome • There are a lot of resources to help you learn and discover new things that may be going on in your body Tune into this 20-minute episode + I speak with Casey Piatt + she shares her story of hope and how she wants to bring awareness to Long Qt Syndrome Key Points: • There are some rare genetic disorders that are not found until something happens in your life to show them. • There are 2 types of Long Qt Syndrome. One is a genetic disorder and the other is acquired, like what you would get from taking medicines. • Beta blockers are used to slow the heart rate down and helps avoid any negative episodes. • Resources you can use to monitor Long Qt Syndrome is a cardiologist and the SADS website. • A defibrillator helps jump start the heart back up and get it to a normal level. • Wellness comes in EVERY diagnosis. • With any diagnosis, there is always hope. • You can find information on Long Qt Syndrome at https://www.mayoclinic.org/diseases-conditions/long-qt-syndrome/symptoms-causes/syc-20352518 • You can find information on SADS Foundation at https://www.sads.org/What-is-SADS#.XkTbzhNKhUN
Jane Ferguson: Hello, and welcome to Getting Personal, Omics of the Heart, your monthly podcast from Circulation: Genomic and Precision Medicine. I'm Jane Ferguson. It is August, 2019, and this is episode 31. Let's get started. Our first paper comes from Freyja van Lint and Cynthia James, from University Medical Center Utrecht, and is entitled Arrhythmogenic Right Ventricular Cardiomyopathy-Associated Desmosomal Variants Are Rarely De Novo, Segregation and Haplotype Analysis of a Multinational Cohort. In this study, the team was interested in exploring variants that are associated with arrhythmogenic right ventricular cardiomyopathy or ARVC. ARVC is often attributable to pathogenic variants in genes encoding cardiac desmosomal proteins, but the origin of these variants had not been comprehensively studied. The investigators identified ARVC probands meeting 2010 task force criteria from three ARVC registries in the United States and Europe and who had undergone sequencing of desmosomal genes. All 501 probands, 322 of them, or over 64%, carried a pathogenic or likely pathogenic variant in the desmosomal genes PKP2, DSP DSG2, DSC2, and JUP. The majority of these, over 75%, we're not unique with these variants occurring in more than one proband. The team performed cascade screening and were able to identify the parental origin of almost all of the variants. However, they identified three de novo variants, including two whole gene deletions. They conducted haplotype analysis for 24 PKP2 variants across 183 seemingly unrelated families and concluded that all of these variants originated from common founders. This analysis sheds light on the origin of variants in desmosomal genes and suggests that the vast majority of these ARVC variants originate from ancient founders with only a very small proportion of de novo variants. These data can inform clinical care particularly concerning genetic counseling and cascade screening of relatives. The next paper continues a theme of cardiomyopathy and comes from Derk Frank, Ashraf Yusuf Rangrez, Corinna Friedrich, Sven Dittmann, Norbert Frey, Eric Schulze-Bahr and colleagues from University Medical Center Schleswig-Holstein. In this paper, Cardiac α-Actin Gene Mutation Causes Atrial-Septal Defects Associated with Late-Onset Dilated Cardiomyopathy, the team was interested in understanding the genetics of familial atrial-septal defect. They studied large multi-generational family with 78 family members and mapped a causal variant on chromosome 15q14, which caused nonsynonymous change in exon 5 of the ACTC1 gene. In silico tools predicted this variant to be deleterious. Analysis of myocardial tissue from an affected individual revealed sarcomeric disarray, myofibrillar degeneration, and increased apoptosis. Proteomic analysis highlighted extracellular matrix proteins as being affected. The team over-expressed the mutation in rats and found structural defects and increased apoptosis in neonatal rat ventricular cardiomyocytes and confirmed defects in actin polymerization and turnover which affected contractility. These data implicate the variant in ACTC1 as causing atrial-septal defects and late-onset cardiomyopathy in this family and revealed the underlying molecular mechanisms affecting development and contractility. The next paper is entitled Characterization of the CACNA1C-R518C Missense Mutation in the Pathobiology of Long-QT Syndrome Using Human Induced Pluripotent Stem Cell Cardiomyocytes Shows Action Potential Prolongation and L-Type Calcium Channel Perturbation, and it comes from Steven Estes, Michael Ackerman and colleagues at the Mayo Clinic. They set out to use patient-derived human induced pluripotent stem cells to understand the pathogenicity of a variant in the CACNA1C gene in Long-QT Syndrome. They obtained cells from dermal punch biopsy from an individual with long-QT and a family history of sudden cardiac death who carried an R518C missense mutation in CACNA1C. Starting with fibroblasts, they reprogrammed the cells into iPSCs and then differentiated these into cardiomyocytes. They corrected the mutation back to wild type using CRISPR/Cas9 and then compared the cardiomyocytes carrying the original patient mutation with isogenic corrected cardiomyocyte controls. They found significant differences in action, potential duration, and in calcium handling. Patch clamp analysis revealed increased L-type calcium channel window current in the original mutation-carrying cells in addition to slow decay time and increased late calcium current compared with the isogenic corrected control human iPSC cardiomyocytes. These data strongly suggest that CACNA1C is a long-QT susceptibility gene and demonstrate the potential in using patient-derived iPSCs and CRISPR/Cas9 to understand underlying mechanisms linking variants to disease. The final paper this month is Blood Pressure-Associated Genetic Variants in the Natriuretic Peptide Receptor-1 Gene Modulate Guanylate Cyclase Activity and comes from Sara Vandenwijngaert, Chris Newton-Cheh and colleagues on behalf of the CHARGE+ Exome Chip Blood Pressure Consortium, the CHD Exome+ Consortium, the Exome BP Consortium, the GoT2D Consortium, the T2D-GENES Consortium, and the UK Biobank CardioMetabolic Consortium Blood Pressure Working Group. This team wanted to understand how variants in the NPR-1 gene affect the function of the atrial natriuretic peptide receptor-1. They performed a meta-analysis across over 491,000 unrelated individuals, including both low frequency and rare variants in NPR-1 to identify their association with blood pressure. They identified three nonsynonymous variants associated with altered blood pressure at genome-wide significance and examined the function of these variants in vitro. Using cells expressing either wild type NPR-1 or one of the three identified variants, they explored the impact of the variants on the ability of cells to catalyzes the conversion of guanosine triphosphate to cyclic 3′,5′-guanosine monophosphate in response to binding of atrial or brain natriuretic peptide. Increased levels of cyclic GMP are known to decrease blood pressure by inducing by natriuresis, diuresis, and vasodilation. Two variants which associated with high blood pressure in the population meta-analysis were associated with decreased cyclic GMP in response to ANP or BNP in vitro, while one variant which associated with lower blood pressure in humans was associated with higher cyclic GMP production in vitro. These data show that variants affecting loss or gain of function in guanylate cyclase activity could have downstream effects on blood pressure at the population level. That's it for this month. Thank you for listening. We will be back with more next month. This podcast was brought to you by Circulation: Genomic and Precision Medicine and the American Heart Association Council on Genomic and Precision Medicine. This program is copyright American Heart Association 2019.
The one where Cameron goes to Bath . Discussion on coffee crawls as well as how we remember faces, and Long QT Syndrome. Apologies for the still broken show notes, we are trying to fix it. Twitter: @BrewedForWork Email: brewedforwork@gmail.com
Speaker 1: Hi, everyone. Welcome to episode 21 of Getting Personal, Omics of the Heart from October 2018. I'm Jane Ferguson, an Assistant Professor at Vanderbilt University Medical Center and an Associate Editor at Circulation: Genomic and Precision Medicine. We have a great issue this month. So, let's dive straight in. First up, an article on "Loss-of-Function ABCC8 Mutations in Pulmonary Arterial Hypertension" from Michael Bohnen, Wendy Chung and colleagues from Columbia University. In pulmonary arterial hypertension, or PAH, compromised pulmonary arterial function can raise pressure in the pulmonary artery which leads to increased pulmonary vascular resistance. This ultimately results in right heart failure. While PAH is relatively rare, it has a high rate of mortality. Some genetic underpinnings have been identified, notably the KCNK3 gene identified by the same research group where they find that mutations result in potassium channelopathy. However, here the authors hypothesized that other genetic contributors also exist and that identification of these could highlight new therapeutic targets to improve treatment and outcomes in PAH. In their study, the authors performed exome sequencing for discovery of novel disease variants in 233 PAH patients, 99 of whom had pediatric-onset and 134 with adult-onset. They sequenced a replication sample of 680 individuals with adult-onset PAH. They found a de novo missense variant in the ABCC8 gene in one patient and then found 10 more ABCC8 variants in other unrelated patients in the discovery and replication samples. Half of these were novel mutations and all were located in conserved regions and predicted to be deleterious. They screened over 33,000 subjects from the Exome Aggregation Consortium and over 49,000 from the Regeneron-Geisinger DiscovEHR study and found significant overrepresentation on rare ABCC8 variants in the PAH cases compared with population controls. ABCC8 encodes sulfonylurea receptor ... part of the potassium ATP channel. The authors determined that it is expressed in lungs in both PAH and healthy individuals and is particularly localized to alveolar macrophages and proximal pulmonary arteries. They expressed eight of the newly discovered ABCC8 mutations in COS cells, which are a monkey-derived, fiberglass-like cell line and they assessed the effects on function. They used patch-clamp experiments to assess potassium ATP channel activity and recorded efflux rates of Rubidium-86. Every mutation was associated with impairments in one or both functional assays, suggesting that mutations in ABCC8 are responsible for PAH by a modulating potassium channel function and flux. An existing drug, Diazoxide, targets ABCC8 and has anti-hypertensive and insulin-lowering effects. The authors find that all mutants were pharmacologically activated by Diazoxide in the functional assays. Now, whether this drug would be safe or effective in PAH remains unknown, but these findings open up targeting of ABCC8 as a possible treatment in PaH and highlight the importance of potassium channels in PAH. Our next paper also used whole-exome sequencing for novel discovery. Marzia de Bortoli, Alessandra Rampazza and colleagues from the University of Padua in Italy published "Whole-Exome Sequencing Identifies Pathogenic Variants in TJP1 Gene Associated With Arrhythmogenic Cardiomyopathy". Arrhythmogenic Cardiomyopathy, or ACM, is one of the most common causes of sudden unexpected death in athletes and young people. It is known to be frequently caused by mutations in genes encoding mechanical junction proteins of the intercalated disks within the cardiac muscle. However, some individuals with ACM do not have any mutations in known genes. This research group was interested in finding novel causal gene mutation and they use whole-exome sequencing to identify mutations from a single patient in Italy. They used InSilica tools to screen for potentially damaging mutations which brought their list of candidate mutations down to 52 and this was topped by a novel mutation in the TJP1 gene which was predicted to be highly deleterious using various algorithms. Using Sanger sequencing, they found that this mutation was also present in several family members. A second mutation in TJP1, also predicted to be damaging, was identified in a second Italian family. They then screened a sample of 43 Dutch and German subjects diagnosed with ACM and found that, once again, mutations in TJP1 topped the list as predicted to be damaging. The TJP1, or tight junction protein 1, encodes the intercalated disk proteins ZO1. The identified mutations may affect folding and local interactions within the protein, affecting protein-protein interactions and gap junction organization. Well, within this paper, they were not able to fully disentangle the mechanisms linking these mutations to disease, given that the prevalence of TJP1 mutations in their ACM samples was almost 5%. Screening for TJP1 mutations in ACM cohorts may identify many additional affected subjects. Further research into TJP1 is needed to identify how these variants may cause ACM. If you want to read more about this paper, you can check out the accompanying editorial from Jason Roberts ... Western University, Ontario ... in this same issue. Next up is a paper from Natsuko Tamura, Yasuhiro Maejima, Mitsuaki Isobe and colleagues from Tokyo Medical and Dental University entitled "Single-nucleotide Polymorphism of the MLX Gene Is Associated With Takayasu Arteritis". Takayasu Arteritis, or TAK, is an autoimmune disease causing aortic vasculitis that is poorly understood and disproportionately affects young Asian women. In previous genome-wide associations, study of TAK in Japanese individuals conducted by this group, indicated SNPs in the MLX gene. In this paper, the authors aim to identify mechanisms linking MLX mutations with TAK. The top GWAS SNP rs665268 is a missense mutation causing L-Glutamine Arginine substitution in the DNA binding site of MLX. They found that this SNP was associated with severity in disease in TAK. With additional copies of the risk alleles associated with more severe aortic regurgitation and greater number arterial lesions. In mice, the highest expression of MLX was found in the aortic valves. Using crystallography, they found that the missense mutation likely stabilizes a complex formed between MLX and MondoA. Immunoprecipitation experiments confirmed that the missense mutation was associated with enhanced MLX MondoA heterodimer formation and MLX transcriptional activity. This resulted in upregulation of TXNIP and higher TXNIP expression is associated with increased intracellular oxidative stress and the authors found for increased oxidative stress in cells carrying the MLX mutation. Further, additional cell experiments showed evidence of this MLX mutation reduces autophagy and stimulates inflammasome activation. Overall, through a series of really elegant experiments, the authors demonstrate that a missense mutation in MLX leads to inflammasome activation and accumulation of cells within the aorta, potentially underlying the pathophysiology seen in TAK patients and highlighting novel causal pathways that may be probed therapeutically.regular Our next paper from Danxin Wang, Wolfgang Sadee and colleagues from the University of Florida and The Ohio State University, also delves into the functional impact of disease-associated SNPs. In their paper, "Interactions Between Regulatory Variants in CYP7A1 Promoter and Enhancer Regions Regulate CYP7A1 Expression", they used a series of experiments to demonstrate how SNPs in CYP7A1 ... which have been associated with cholesterol and cardiovascular disease ... are related to gene function. CYP7A1 is a gene which coordinates a key pathway for cholesterol removal from the body because it encodes an enzyme which is rate-limiting for bioassay synthesis from cholesterol. Although several SNPs in the gene have been associated with cardiovascular phenotypes, the reported effects on gene function have been inconsistent and/or unclear. Because of the linkage disequilibrium between SNPs, it has been hard to understand which SNP or SNPs are actually functional. What this team set out to do was to systematically screen functionality of individual CYP7A1 SNPs to understand the independent effects of each functional variant. First, they used chromatin conformation capture, or 4C assay, to identify regions that associated with a CYP7A1 promoter. They found three distinct regions with evidence of enhancer function and [phonetic 00:09:05] active A>G regulation. They, next, used CRISPR Cas9 to delete each of the three regions in HepG2 cells and assess effects on CYP7A1 expression. One region had no effect, while one led to increased expression and one led to decreased expression ... thus, identifying the presence of both enhancer and repressor regions. Using reporter gene assays, they confirmed the effects seen in CRISPR experiments. Based on reported SNP associations, they narrowed down candidate functional SNPs within the regions and constructed reporter assays containing haplotypes of potential functional SNPs. They were able to identify two SNPs acting together to determine differences in CYP7A1 gene expression. Because these SNPs are in LD, but the minor alleles have effects in opposite directions, considering genotype at both SNPs is required to understand the effects on gene expression. This explains why previous studies found inconsistent results. Both during the functional experiments, they went to human samples and they assessed the combined effect of the two SNPs on clinical phenotypes. Designating people as high or low activity based on the two SNPs, they found significant differences in cholesterol and in the likelihood to reach cholesterol targets on statin, as well as in the risk of MI. This paper is a lovely example of how careful functional interrogation can tease out a complex problem and I think it highlights how much more of this type of work needs to be done for the many other genomic regions with confusing or discord in associations. The last full-length article concerns the "Effect of Ascertainment Bias on Estimates of Patient Mortality in Inherited Cardiac Diseases" and comes from Eline Nannenberg, Imke Christiaans and colleagues at the Academic Medical Center, Amsterdam. They were interested in how much ascertainment bias and the tendency to publish findings from more severe disease cases affects the mortality estimates that are used to guide clinicians and genetic counselors when helping patients understand their disease prognosis. They revisited three inherited cardiac diseases including idiopathic ventricular fibrillation associated with a mutation in DPP6, SCN5A overlap syndrome associated with SCN5A mutations, and Arrhythmogenic Cardiomyopathy caused by a founder PLN mutation. They analyzed mortality over 2-10 years of clinical screening and cascade screening and found that the median age of survival quickly increased in all three conditions. In many cases, the reason that a mutation was identified was because of severe disease in that patient or family, but as the authors highlight here, this can bias publications towards associating the variant with more severe phenotypes and higher mortality. Following up the initial findings with additional screening and tracking of affected individuals is important to subsequently give a more accurate estimation of the effect of the mutation which can be used to inform treatment plans. Moving on to this month's research letters, Catherine Hajek, Jerome Rotter and colleagues from LA BioMed and the University of South Dakota, published the results of their study, "A Coronary Heart Disease Genetic Risk Score Predicts Cardiovascular Disease Risk in Men, Not Women: The Multi-Ethnic Study of Atherosclerosis". The genetic risk scores are being increasingly applied to estimate disease risk in individuals. However, these scores are based on the GWAS discovery from specific populations which have often been disproportionately male and with individuals of European ancestry. In this letter, the authors wanted to understand whether coronary heart disease genetic risk scores performed the same in men and women of European ancestry. Using data from the MESA Study, they applied a 46 locus genetic risk score to over 2500 individuals. In men, this risk score was strongly associated with event rates. However, in women, there was no association. Given the known differences in disease pathophysiology and manifestation between men and women, this finding additionally highlights the need to conduct genetic studies in underrepresented groups so that we can design scores that accurately predict risk within specific groups. Our next letter comes from Xiao Wang and Kiran Musunru at the University of Pennsylvania ... "Confirmation of Causal rs9349379- PHACTR1 Expression Quantitative Trait Locus in iPSC Endothelial Cells". They were interested in understanding the affect of a coronary disease SNP in the PHACTR1 gene on gene expression. Previous efforts to investigate this had yielded conflicting results showing either a significant eQTL effect for PHACTR1 and vascular tissue or no effect on PHACTR1, but an effect on a distal gene EDN1 in endothelial cells. For this study, the authors used CRISPR Cas9 to introduce the SNP to iPS cells and then expanded isogenic lines at the major and minor allele homozygous and differentiated these into endothelial cells. They find that the major allele was associated with significantly higher factorial expression, but no difference in EDN1 expression. Thus, based on these experiments, it appears that PHACTR1 may indeed be the causal gene in that region underlying the GWAS signal and whether or not EDN1 is involved remains unclear. Our next letter is a clinical letter from Nosheen Raza, Anjali Owens and co-authors at the University of Pennsylvania. They report on "ACTA1 Novel Likely Pathogenic Variant in a Family With Dilated Cardiomyopathy". In this case report, they describe that the discovery of a mutation in ACTA1 in a family with dilated cardiomyopathy, but no skeletal muscle symptoms. As a gene that is predominantly expressed in skeletal muscle, ACTA1 mutations have previously been associated with skeletal muscle myopathies and would not have been expected to cause cardiac symptoms in the absence of skeletal muscle dysfunction. However, sequencing suggests that this variant is a causal mutation in this family, highlighting the need to consider potential mechanisms for cardiac muscle specifics of highly expressed skeletal muscle genes. Our second clinical letter comes from Laura Zahavich, Seema Mital and co-authors from the Hospital for Sick Children in Ontario. They report a "Novel Association of a De Novo CALM2 Mutation With Long QT Syndrome and Hypertrophic Cardiomyopathy". They report finding mutation in the calcium transporter CALM2 gene in the child who presented with hypertrophic cardiomyopathy and ultimately died from sudden cardiac death. While this patient also had some variants of un-insignificance, the CALM2 gene is highly conserved and mutations are likely to be pathogenic. The CALM2 is not on all of the clinical genetic testing panels and in this case, whole-exome sequencing was required to identify a mutation. CALM2 have been described in other individuals and together with the findings reported here, there's compelling evidence for inclusion of CALM2 on cardiomyopathy in clinical testing panels. This issue also contains a perspective article from Michael Mackley, Elizabeth Ormondroyd and colleagues from the University of Oxford entitled "From Genotype to Phenotype: Clinical Assessment and Participant Perspective of a Secondary Genomic Finding Associated with Long QT Syndrome". They describe some of the challenges arising from more widespread genetic testing including how to deal with incidental findings. A larger number of people including apparently healthy individuals are receiving sequencing results that highlight potential disease-related mutations, but with varying penetrance and uncertain effects. This perspective paper highlights the issues through case study and discusses future directions and challenges in this rapidly growing area. Finally, we ride out this issue with an AHA scientific statement on "Cardiovascular Health in Turner Syndrome: A Scientific Statement From the American Heart Association" led by Michael Silberbach and Jolien Roos-Hesselink and a group of co-authors representing the American Heart Association Council on Cardiovascular Disease in the Young; Council on Genomic and Precision Medicine; and Council on Peripheral Vascular Disease. In this statement, they discuss the cardiovascular complications that commonly occur in girls and women Turner syndrome. Cardiovascular disease contributes significantly to premature death in individuals with Turner syndrome. Because of the unique nature of the cardiac presentations in Turner syndrome, better clinical guidelines are needed to improve diagnosis and treatment of [phonetic 00:17:26] ischemia in these individuals. This statement takes a first step to outline suggestions to improve clinical practice and highlights the work that still remains to be done to inform disease management. That rounds out the October issue of Circulation: Genomic and Precision Medicine. Thanks for listening! You can go online to ahajournals.org/journal/circgen to access the latest issue and browse previous issues. As a last reminder, AHA Sessions is approaching fast and I hope to see many of you in Chicago, November 10-12. This podcast was brought to you by Circulation: Genomic and Precision Medicine and the American Heart Association Council on Genomic and Precision Medicine. This program is Copyright American Heart Association, 2018.
What is Long QT syndrome? Dr. Anil Gehi describes this genetic condition, the different types of Long QT, and the treatments.
What is Long QT syndrome? Dr. Anil Gehi describes this genetic condition, the different types of Long QT, and the treatments.
Dr. Paul Wang: Welcome to the monthly podcast On the Beat for Circulation Arrhythmia and Electrophysiology. I'm Dr Paul Wang, editor-in-chief, with some of the key highlights for this month's issue. We'll also hear from Dr. Suraj Kapa reporting on new research from the latest journal articles in the field. In our first article, Barry Maron associates report on the long term clinical course of hypertrophic cardiomyopathy patients following ICD therapy for ventricular arrhythmias. They studied a cohort of 486 high-risk hypertrophic cardiomyopathy patients with ICDs from eight international centers. Of these 486 patients over 6.4 years, 94 patients or 19% experienced appropriate ICD interventions, terminating VT or VF. Of the 94 patients receiving appropriate ICD therapy, 87 were asymptomatic or only mildly symptomatic at the time of appropriate ICD interventions. Of these 87 patients, 74 or 85% remained in classes one or two without significant change in clinical status of the subsequent 5.9 years up to 22 years. Among the 94 patients, there was one sudden death in three patients who died from non arrhythmic hypertrophic cardiomyopathy related processes. Post ICD intervention, freedom from hypertrophic cardiomyopathy, mortality was 100% at one year, 97% at five years, and 92% at 10 years, distinctly lower than the risk of ischemic or non ischemic cardiomyopathy in ICD trials. Hypertrophic cardiomyopathy patients with ICDs interventions reported the heightened anxiety and expectation of future shocks. However, they did not affect general psychological well-being or quality of life. The authors concluded that in hypertrophic cardiomyopathy, unlike ischemic heart disease, prevention of sudden death with ICD therapies unassociated with a significant increase in cardiovascular morbidity and mortality, nor transformation into heart failure deterioration, ICD therapy does not substantially impair overall psychological and physical well-being. In our next article, Abdulla Damluji and associates examined the cost of hospitalizations for cardiac arrest using the US nationwide inpatient sample from 2003 to 2012. Using the log transformation of inflation adjusted costs the authors examined 1,387,396 patients who were hospitalized after cardiac arrest. They had a mean age of 66 years. Inpatient procedures included coronary angiography in 15%, PCI in 7%, intra-aortic balloon pump in 4.4%, therapeutic hypothermia in 1.1%, and mechanical circulatory support in 0.1% of patients. Notably the rates of therapeutic hypothermia increased from 0 in 2003 to 2.7 in 2012, p less than 0.001. Both hospital charges inflation adjusted costs linear increased over time. In a multi-variant analysis predictors of inflation adjusted costs included large hospitals size, urban teaching hospital, and length of stay. Among co-morbidities, atrial fibrillation or fluid and electrolytes imbalance were the most common associated with cost. The authors found that during the period between 2003 and 2012 post cardiac arrest, hospitalizations had a steady rise and associated healthcare costs likely related to increase length of stay, medical procedures and systems of care. In our next paper, Peter Huntjens and associates examined intrinsic interventricular dyssynchrony as a predictor of human dynamic response to cardiac resynchronization. The authors use a cardiovascular computational model CircAdapt to characterize the isolated effect of intrinsic interventricular or intraventricular activation on resynchronization therapy response that is the change in LV dP/dt max. The simulated change in LV dP to dt max had a range of 1.3 to 26.5% increased considerably with increasing inter ventricular dyssynchrony. In contrast, the isolated effect of intra ventricular dyssynchrony was limited with the change in the LV dP/dt max range and the left ventricle from 12.3 to 18.3% in the right ventricle from 14 to 15.7%. Secondly, electrocardiographic imaging derived activation characteristics of 51 CRT candidates were used to create individual models of ventricular activation in CircAdapt. The model predicted change in LV dP/dt max was close to the actual value in left bundle branch block patients with 2.7% difference between measured and simulated when only intrinsic interventricular dyssynchrony was personalized. Among non left bundle branch block patients a change in LV dP/dt max was systematically over predicted by CircAdapt with a 9.2% difference between measured and simulated. Adding intra ventricular activation to the model did not improve the accuracy of response prediction. The authors found that computer revealed intrinsic interventricular dyssynchrony is the dominant component of the electrical substrate driving the response to CRT. In the next paper Kenji Kuroki and associates examined the use of voltage limit adjustment of substrate mapping and fast Fourier transform analysis of local ventricular bipolar electrograms during sinus rhythm to predict VT isthmuses. They performed these studies and nine post infarction patients who underwent catheter ablation for total of 13 monomorphic ventricular tachycardias. Relatively higher voltage areas on electroanatomical map or defined as high voltage channels, which were further classified as full or partial if the entire or more than 30% of the high voltage channel was detectable. 12 full high voltage channels were identified in seven of nine patients. Relatively higher fast Fourier transform areas were defined as high frequency channels, which were located on seven of 12 full high voltage channels. Five VT isthmuses or 71% were included in the seven full high voltage channels positive in high frequency channel positive sites. While no VT isthmuses were found in five full high voltage channel positive but high frequency channel negative sites, high frequency channels were identical to 9 out of 16 partial high voltage channels. Eight VT isthmuses or 89% were included in nine partial high voltage channel positive in high frequency channel positive sites, whereas no VTs isthmuses were found in the seven partial high voltage channel positive and high frequency channel negative sites. All high voltage channel positive in high-frequency channel positive sites predicted VT isthmus with a sensitivity of 100% and specificity of 80%. The authors concluded that based on this small series that combined use of voltage, limited adjustment and fast Fourier transform analysis may be useful method to detect VT isthmuses. In the next study, John Whitaker and associates examined the use of lesion index, LSI index, a proprietary algorithm combining contact force, radio-frequency application duration, and RF current. Cardiac CT was used to assess atrial tissue thickness. Ablation lines two to three per animal were created in the right atrium in seven mini pigs with point lesions using 25 watts of energy. Two weeks after the ablation, serial sections of targeted atrial tissue or examine histologically to identify gaps and transmural ablation. LSI guidelines had a lower incidence of histological gaps. Four gaps in the 69 catheter moved or 5.8% compared to ablation using LSI plus two millimeter lines in which there is seven gaps in 33 catheter moves or 21.2% and using LSI plus four millimeter lines in which there are 15 gaps in 23 moves or 65.2% p less than 0.0. The change in LSI was calculated retrospectively is a distance between two adjacent lesions above the mean LSI of the two lesions. Changing LSI values of 1.5 or less were associated with no gaps in transmural ablation. The authors concluded that in this mod of chronic atrial ablation delivery of uninterrupted transmural linear lesions may be facilitated using LSI to guide catheter movement. When change in LSI between adjacent legions is 1.5 millimeters or lower, no gaps in atrial linear lesions should be expected. In our next paper, Matthew Bennett and associate examined whether their response to antitachycardia pacing in patients with ICD could further discriminate ventricular from super ventricular arrhythmias in patients receiving ATP in the RAFT trial. The RAFT trial randomized 1,798 patients with New York Heart Association class two or three heart failure, left ventricular ejection fraction less than or equal to 30%, in QRS duration 120 millisecond or greater, to an ICD plus or a minus cardiac resynchronization. Beginning with 10,916 ATP attempts for 8,150 tachycardia episodes in 924 patients, the author's excluded tachycardias where ATP terminated the episode or were the specific etiology tachycardia was uncertain. In this study, they analyzed 3,676 ATP attempts delivered to 2,046 tachycardia episodes in 541 patients. The authors found that a shorter difference between the post pacing interval is PPI minus TCL, was more likely to be associated with VT than SVT, mean of 138.1 milliseconds for VT and 277.4 milliseconds for SVT p, less than 0.001. A PPI minus TCL value of less than or equal to 300 milliseconds had a sensitivity in 97.4% and a specificity of 28.3% for VT. The authors concluded that specifically the PPI minus TCL following antitachycardia pacing may help distinguish ventricular from supraventricular arrhythmias. In the next study, Shailee Shah and Amr Barakat and associates examined the outcomes after repeat AF ablation. The authors examined 137 patients out of a total of 10,378 patients undergoing Afib ablation who had had initial long-term success defined from recurrent arrhythmias for greater than 36 months off anti-arrhythmic drugs in subsequent underwent repeat ablation for recurrent atrial fibrillation. The median arrhythmia free period that define long-term success was 52 months. In redo-ablations reconnection of at least one of the pulmonary veins was found in 111 or 81% of patients. Additional non PV ablations were performed in 127 or 92.7% of patients. After a mean follow-up of 17 months, 103 patients or 75% were arrhythmia-free, 79 off anti-arrhythmics, and 24 on arrhythmics. The authors found that repeat ablations with re-isolation to the point of veins and modifying the atrial substrate had a good success rate. In the next article Qiongling Wang and associates hypothesized that genetic inhibition of CaMKII oxidation in a mouse model of Duchenne muscular dystrophy can alleviate abnormal calcium homeostasis thus preventing ventricular arrhythmias. The authors tested whether the selective loss of oxidation of the CaMKII effects ventricular arrhythmias in the mouse model of Duchenne muscular dystrophy. Genetic inhibition of ox-CaM kinase II by knocking replacement of the regulatory domain methionines with valines, which we'll call MMVV, prevented ventricular tachycardia in the mdx mice. Confocal calcium imaging of ventricular myocytes, isolated from the mdx MMVV mice revealed normalization of intra-calcium release events compared to myocytes from the mdx mice. Abnormal action potentials as assessed by optical mapping mdx were also alleviated by genetic inhibition of ox-CaMK II. Knockout of the NADPH oxidase regulatory sub-unit P 47 Fox normalized elevated ox-CaMK II, repaired intracellular calcium hemostasis and rescued inducible ventricular arrhythmias in the mdx mice. The authors concluded that inhibition of ROS or ox-CaMK II protects against pro-arrhythmic intracellular calcium handling, preventing ventricular arrhythmias in a mouse model of Duchenne muscular dystrophy. In the next article, Kyohei Marume and Teruo Noguchi and associates examined whether the combination of QRS duration of 120 milliseconds or greater in late gadolinium enhancement is a precise prognostic indicator for the primary endpoint of all cause death and a composite of sudden cardiac death or aborted sudden cardiac death in 531 patients with dilated cardiomyopathy. They also analyzed the association between the combination of late gadolinium enhancement and increased QRS duration in these end points among patients with a class one indication for implantable defibrillator. The author's divided study patients in three groups according to late gadolinium enhancement in QRS duration. Two negative indices that is late gadolinium enhancement negative and narrow QRS, one positive index with either late gadolinium enhancement positive or wide QRS or two positive indices late gadolinium positive and wide QRS and followed them for 3.8 years. Multiple variable Cox regression analysis identified to positive indices as significant predictors of all cause death. A hazard ratio of 4.29 p equals 0.026. Among the 317 patients with a class one indication for ICD, the five year event rate of sudden cardiac death or aborted sudden cardiac death was lowest in the two negative indices groups, 1.4%. With propensity score matching cohorts the two negative indices group had a significant lower event rate of sudden cardiac death or aborted sudden cardiac death than to two other groups hazard ratio 0.2, p equals 0.046. The authors concluded that the combination of late gadolinium enhancement in wide QRS provides additional prognostic stratification compared to late gadolinium enhancement status alone. In the next study, Matthew Sulkin and associates examined whether a novel local impedance measurement on an ablation catheter identifies catheter tissue coupling and is predictive of lesion formation. The author's first studied explanted hearts, 10 swine, and then in vivo 10 swine, using an investigational electro anatomical mapping system that measures impedance from an ablation catheter with mini electrodes incorporated into the distal electrode. Rhythmia and Intellanav, Boston Scientific. Explanted tissue was placed in a warmed 37 degree celsius saline bath mounted on a scale, and the local impedance was measured 15 millimeters away from the tissue to five millimeters of catheter tissue compression at multiple catheter angles. Lesions were created for 31 and 50 watts from 5 to 45 seconds for an N of 70. During in vivo valuation of the local impedance measurements of the myocardium 90 and blood pool 30 were guided by intracardiac ultrasound while operators were blinded to the local impedance data. Lesions were created with 31 and 50 watts for 45 seconds in the ventricle with an n of 72. The local impedance of myocardium, which was 119.7 ohms, was significantly greater than in blood pool 67.6 ohms the p of less than 0.01. Models that incorporate local impedance drop to predict lesion size had better performance that models incorporate force time integral r squared of 0.75 versus r squared of 0.54 and generator impedance drop r squared of 0.2 versus r squared of 0.58. Steam pops displayed a significantly higher starting local impedance and a larger change in local impedance compared to successful RF applications, p less than 0.01. The authors concluded that local impedance recorded for miniature electrodes provides a valuable measure of catheter tissue coupling and the change in local impedance is predictive of lesion formation during RF ablation. In the next paper, Boaz Avitall and associates found that the rising impedance recorded from a ring electrode placed two millimeters from the cryoballoon signifies ice formation covering the balloon surface and indicates ice expansion. The authors studied 12 canines in a total of 57 pulmonary veins, which were targeted for isolation. Two cryoapplications were delivered per vein with a minimum of 90 and a maximum 180 second duration. Cryoapplications was terminated upon reaching a 500 ohm change from baseline. Animals recovered 38 plus or minus six days post procedure, and the veins were assessed electrically for isolation. Heart tissue was histological examined. Extra cardiac structures were examined for damage. Pulmonary vein isolation was achieved in 100% of veins if the impedance reached 500 ohms in 90 to 180 seconds. When the final impedance was between 200 and 500 ohms within 180 seconds of freeze time, pulmonary vein isolation was achieved in 86.8%. For impedance of less than 200 ohms pulmonary vein isolation was achieved in 14%. No extra cardiac damage was recorded. The authors found that impedance rise of 500 ohms at less than 90 seconds with a freeze time of 90 seconds resulted in 100% pulmonary vein isolation. In our final papers Sally-Ann Clur and associates examined left ventricular isovolumetric relaxation time as the potential diagnostic marker for fetal Long QT Syndrome. Left ventricular isovolumetric contraction time, ejection time, left ventricular isovolumetric relaxation time, cycle length, and fetal heart rate were measured using pulse doppler wave forms in fetuses. Time intervals were expressed as percentage of cycle length, and the left ventricular myocardium performance index was calculated. Single measurements were stratified and compared between Long QT Syndrome fetuses and controls. Receiver operator curves were reformed for fetal heart rate in normalized left ventricular isovolumetric relaxation time. A linear mixed effect model including multiple measurements was used to analyze fetal heart rate, the left ventricular iso volume metric relaxation time, and the left ventricular myocardial performance index. There were 33 Long QT fetuses in 469 controls. In Long QT fetuses the left ventricular isovolumetric relaxation time was prolonged in all groups, p less than 0.001, as was the left ventricular isovolumetric relaxation time. The best cutoff to diagnose Long QT syndrome was the normalized left ventricular isovolumetric relaxation time greater than equal to 11.3 at less than or equal to 20 weeks, giving a sensitivity in 92% and a specificity of 70%. Simultaneous analysis of the normalized left ventricular isovolumetric relaxation time and fetal heart rate improved the sensitivity and specificity of Long QT Syndrome, AUC of 0.96. The normalized left ventricular isovolumetric relaxation time, the left ventricular myocardial performance index, and fetal heart rate trends differed significantly between Long QT Syndrome fetuses and controls throughout gestation. The authors concluded that left ventricular volumetric relaxation time is Prolonged QT fetuses. Findings of a prolonged normalize left ventricular isovolumetric relaxation time, and sinus bradycardia can improve the prenatal detection of fetal Long QT Syndrome. That's it for this month, but keep listening. Suraj Kapa will be surveying all journals for the latest topics of interest in our field. Remember to download the podcasts On the Beat. Take it away Suraj. Suraj Kapa: Thank you, Paul and welcome back to On the Beat were we will be summarizing hard-hitting articles across the entire electrophysiologic literature. Today we'll be starting within the realm of atrial fibrillation where we're review an article within the realm of anticoagulation and stroke prevention. Quon et al. published in last month's issue of JACC cardiac electrophysiology on anticoagulant use and risk of ischemic stroke and bleeding in patients with secondary atrial fibrillation. It is well known that use of anticoagulation in atrial fibrillation can reduce overall thromboembolic outcomes. However, its role in secondary atrial fibrillation is unclear. Thus, the authors sought to evaluate the effects anticoagulant use on stroke and bleeding risk. Amongst those where atrial fibrillation occurred in the setting of acute coronary syndrome, pulmonary disease, or sepsis. Amongst around 2300 patients evaluated retrospectively there was no evidence of a lower incidence of ischemic stroke among those treated with anticoagulants compared to those who are not. However, anticoagulation was associated with a higher risk of bleeding in those with new onset AF associated with acute pulmonary disease. The authors suggest as a result that there is unclear overall benefit for long-term anticoagulation in patients with presumed secondary atrial fibrillation. The difficulty in assessing this is how to define secondary atrial fibrillation. However, in many studies patients who developed in the setting of acute illness still had a high risk of developing quote unquote clinically significant AF in long-term follow-up. However, this was not necessarily absolute as many patients not necessarily develop AF that could be considered clinically significant. Thus, the clinical question that arises is: how long should we treat a patient with anticoagulation when they have presumed secondary atrial fibrillation. These data seem to suggest that there may be no net overall benefits. In other words, all-comers with secondary atrial fibrillation should not necessarily be forever treated with anti-coagulation. However, this slightly requires clinical trials to evaluate further. Next we delve into the realm of cardiac mapping and ablation where we view an article by Gaita et al. entitled 'Very long-term outcome following transcatheter ablation of atrial fibrillation. Are results maintained after 10 years of follow-up?', published in Europace last month. While pulmonary vein isolation is a widely accepted approach for treatment of atrial fibrillation, most reported studies review outcomes in terms of freedom of AF over a relatively short time period, generally two to five years. However longer term follow up is inconsistently reported. Gaita et al. sought to review 10 year outcomes amongst 255 patients undergoing ablation in a single center. They noted 52% remainder arrhythmia-free amongst a mixed cohort of both paroxysmal and persistent patients while 10% progressed to permanent atrial fiBrillation. They found that absence of increases in blood pressure, BMI, and fasting glucose was protective against an arrhythmia recurrence. These findings suggest that in a relatively small cohort of patients limited to a single center that even long-term outcomes after pulmonary vein isolation are generally quite good, exceeding 50%. However, future freedom from atrial fibrillation is heavily tied to control of other risk factors. In other words, if a patient is going to have poor control of diabetes, blood pressure, or gain weight, the benefit of their pulmonary vein isolation over long-term follow-up is likely less. These data thus highlight both the potential long-term benefit of PVI, but also the importance of counseling patients regarding the need for continued management and control of future and existing risk factors. Staying within the realm of atrial fibrillation we next review an article by Weng et al. entitled 'Genetic Predisposition, Clinical Risk Factor Burden, and Lifetime Risk of Atrial Fibrillation' published in last month's issue of circulation. The probability of detecting atrial fibrillation in patients based on clinical factors and genetic risk is unknown. Weng et al. sought to clarify whether a combination of clinical and polygenic risk scores could be used to predict risk of developing atrial fibrillation over long-term followup in the Framingham Heart Study. Amongst 4,600 individuals, 580 developed incident atrial fibrillation and had an overall lifetime risk of developing atrial fibrillation of 37%. Those are the lowest risk tertile based on clinical risk factor burden and genetic predisposition had a lifetime risk of 22% versus 48% in the highest. Furthermore, a lower clinical risk factor burden was associated with delayed atrial fibrillation onset. In order to identify patients with atrial fibrillation, before negative sequelae such as stroke occur, patient and physician understanding of risk and monitoring needs is necessary. The fact is that it will be great to identify every single patient who has atrial fibrillation before they have a negative sequela of that atrial fibrillation such as ischemic stroke. However, performing continuous monitoring of all patients with potential negative sequelae of atrial fibrillation is extraordinarily difficult. The reason is it's excessively costly. We cannot monitor the entire population irrespective of whatever the risk factors are. However, if we're able to identify the highest risk cohorts early on before the atrial fibrillation onsets, this may offer opportunities for use of newer cheaper monitors. The work by Weng et al. suggests one such possible approach combines clinical and polygenic risk scores. Actionability of these data, however, remains to be seen and further validation other cohorts is necessary to clarify generalized ability. The next article we review is published in last month's issue of the Journal of American College of Cardiology by Lopes at al. entitled 'Digoxin and Mortality in Patients With Atrial Fibrillation. Lopes et al. sought to evaluate the impact of the Digoxin on mortality in patients with atrial fibrillation and the association with the Digoxin serum concentration and heart failure status. They value this association in over 17,000 patients. At baseline 32% were receiving Digoxin. Baseline Digoxin use did not associate with risk of death, but even in these patients a serum concentration of greater than 1.2 nanograms per milliliter was associated with a 56% increase in mortality risk. For each .5 nanogram per milliliter increase in oxygen concentration the hazard ratio increased by 19% for overall mortality. This was irrespective of heart failure status. Furthermore, in patients who are newly started in Digoxin over the follow-up period, the risk and death and sudden death was higher. These data suggests a significant risk associated with Digoxin use for management of atrial fibrillation irrespective of heart failure status. Furthermore, serum valleys above 1.2 require close consideration of dose de-escalation. Whether there is any optimal dose, however, from the study is unclear. These data amongst a host of prior data strongly suggest again strategic use of Digoxin principally for the management of atrial fibrillation. Moving on within the realm of atrial fibrillation, we review an article published in last month's issue of Circulation Research by Yan et al. entitled Stress Signaling JNK2 Crosstalk with CaMKII Underlies Enhanced Atrial Arrhythmogenesis. In this more acellular based study the mechanism underlying atrial arrhythmogenesis associated with aging was evaluated. Yan et al. sought to figure out whether the stress response JNK in calcium mediated arrhythmias might contribute to atrial arrhythmogenesis in aged transgenic mouse models. They demonstrated significant increased activity of JNK2 and aging atria, those furthermore associated with rhythmic remodeling. This association was mediated through CaMKII and ryanodine receptor channel function, with activation of the former leading to increased calcium leak mediated by the ladder. This in turn related to increase atrial fibrillation likelihood. Identifying novel targets for atrial fibrillation therapy is critical. Given atrial fibrillation is a complex disease process related to a multitude of risk factors it can be assumed that the contribution of any single factor may be mediated through distinct mechanisms. Aging in particular as well regarded, but considered to be non-modifiable risk factor for atrial fibrillation. Identifying genes or pathways, the immediate aging associated fibrillation, may take the risk of aging as no longer a non-modifiable thing. The finding of the significance of JNK2 and associate downstream effects with AF risks and aging hearts may hold potential in offering unique therapeutic targets. Finally, within the realm of atrial fibrillation, we're viewing article by Chen et al. in last month's issue of the Journal of the American Heart Association entitled Association of Atrial Fibrillation With Cognitive Decline and Dementia Over 20 Years: The ARIC-NCS Study. Multiple studies have suggested a significant association between atrial fibrillation risk of dementia. However, these studies have limited time follow-up and were often done and predominantly white patients. Thus, the authors sought to use the data from ARIC, the Atherosclerosis Risk in Communities Neurocognitive Study, to assess the risk of cognitive decline associated with atrial fibrillation. Amongst over 12,000 participants, a quarter of whom are black and half of whom are white, they noted 2100 patients developed atrial fibrillation and 1,150 develop dementia over a 20 year follow up period. There was a significantly greater risk of cognitive decline amongst those who developed atrial fibrillation. In turn incident atrial fibrillation for the follow-up period was associated with a higher risk of dementia even after adjusting for other clinical and cardiovascular risk factors such as incidents that ischemic stroke. These data further strengthened prior evidence of a direct link between atrial fibrillation and risk of cognitive decline and dementia. Understanding this long-term risk raises the need to additionally identify approaches to prevent this occurrence, which in turn is dependent on understanding the underlying mechanisms. The finding that the risk of cognitive decline dementias independent of ischemic stroke events raises concern that either subclinical micro-embolic events or other factors may be playing a role in this risk and in turn raises question as to how best to prevent them. Until better understood, however, the question of whether the association is causal remains to be seen. Changing gears yet again, we now delve into the realm of ICDs, pacemakers and CRT. Published in last month, issue of Heart Rhythm Tarakji et al. published a paper entitled 'Unrecognized venous injuries after cardiac implantable electronic device transvenous lead extraction.' Overall risk of transvenous lead extraction includes that of potentially fatal venous laceration. The authors sought to evaluate the incidence of venous injury that may be unrecognized based on microscopic study of extracted leads. Amongst 861 leads obtained from 461 patients they noted 80 leads or almost 9%. Amongst 15% of patients showed segments vein on the lead body, most of which were transmural including the tissue layer. However, in terms of clinical significance, only 1% had need for emergent surgical intervention for clinically significant venous laceration. Risk factors for having the entire vein on the lead included age of lead, ICD leads, and the use of the laser sheath. These findings suggest that there may be a high incidence of subclinical venous injury after lead extraction though rarely resulting clinically apparent sequelae. As would be expected, venous injury, including transmural removal of portions of the vein traversed by the lead, was more common amongst older leads, which generally more often require laser sheets and ICD leads. The question is however, whether this carries any direct clinical implications. One they may be considered is the potential additive risk of an advancing new lead through the same venous channel, particularly in the setting of potential transmural venous injury that already exists. Next in last month's issue of Heart Rhythm we review an article by Sharma at al. entitled 'Permanent His-bundle pacing as an alternative to biventricular pacing for cardiac resynchronization therapy: A multicenter experience.' The use of resynchronization therapy for treatment of patients with heart failure and wide QRS has been shown to offer morbidity and mortality benefits. However, many patients maybe non-responders, and recent studies on His bundle pacing of suggested potential clinical benefits. His bundle pacing essentially only requires one pacing catheter attached within the region of the His bundle Sharma et al. sought to evaluate the safety and success rates of His bundle pacing for patients who have either failed standard resynchronization therapy or in whom most tried as a primary intervention. They noted His bundle pacing was successful in 90% of patients with reasonable myocardial and His bundle capture thresholds. Patients in both groups exhibits significant narrowing of QRS morphology and improvement in left ventricular ejection fraction from a mean of 30 to 43%. However, a total of seven patients had lead related complications. These database on a retrospective analysis of two types of patients, those failing standard biventricular therapy, and those on whom his bundle pacing was attempted as a primary modality suggest overall safety and efficacy in a handful of experienced centers. The promise of His bundle pacing is that a may allow for more effective resynchronization than standard approaches. The high rate of success suggests that His bundle pacing maybe both safe and reasonable to pursue. However randomized trials across more centers are needed to fully prove its benefit, particularly as a primary modality of treatments. Next we review ICDs and chronic kidney disease. In last month's issue of JAMA cardiology by Bansal at al. entitled 'Long-term Outcomes Associated With Implantable Cardioverter Defibrillator in Adults With Chronic Kidney Disease.' While the benefit of ICDs in patients with low EF is widely recognized, modifying factors that may increase risk of death are not as well defined. These include things like advanced age and chronic kidney disease. Bansal et al. sought to evaluate long-term outcomes and ICD therapy in patients with chronic kidney disease. In retrospective study of almost 5,900 ambulatory patients amongst whom 1550 had an ICD, they found no difference in all cause mortality. However, ICD placement was associated with an increased risk of subsequent hospitalization due to heart failure or any cause hospitalization. In light of recent studies such as DANISH the robust sense of ICD benefit is being questioned. One of the thoughts for the absence of similar benefit to prior studies lies in the improving care of ambulatory heart failure patients. In patients with chronic kidney disease several questions rises to the risk with ICD, including infectious risk in dialysis patients and the concomitant mortality risk with renal dysfunction. The author suggested in retrospective study, no incremental benefit of ICDs in patients with chronic kidney disease and perhaps some element of added risk is related to hospitalization. However, this study has several limitations. It is retrospective and many patients received ICDs may have been perceived to be sicker in some way. Thus care must be taken in interpretation, but consideration of randomized studies to adjudicate benefit are likely necessary. Finally, within the realm of devices, we reviewed an article by Tayal et al. entitled "Cardiac Resynchronization Therapy in Patients With Heart Failure and Narrow QRS Complexes.' publishing the Journal of American College of Cardiology last month. Several parameters have been stressed to identify benefit of resynchronization therapy in patients with wide QRS include cross correlation analysis with tissue doppler imaging. However, many patients may have evidence in mechanical dyssynchrony even in the absence of an apparent wide QRS thus Tayal et al. sought to evaluate the benefit of resynchronization therapy amongst 807 patients with heart failure and a narrow QRS mean criteria in a randomized study. Of the 807 46% had delayed mechanical activation. Those without delay mechanical activation had underwent we standardization therapy and were associated with worse overall outcomes likely due to new delayed mechanical activation potentially related to CRT pacing. These data support the absence of a role for resynchronization therapy in patients with a narrow QRS. This is expected as resynchronization therapy likely offers the most benefit in patients with mechanical dyssynchrony that results from electrical dyssynchrony. Since by its very nature resynchronization therapy relies on non physiologic cardiac pacing thus compared to normal cardiac activation the nature of resynchronization pacing is desynchronization. These data support the absence of a role for resynchronization therapy in patients with heart failure and narrow QRS complexes. Moving on to cellular electrophysiology we review an article by Kozasa et al. published in last month's issue of Journal of Physiology entitled 'HCN4 pacemaker channels attenuate the parasympathetic response and stabilize the spontaneous firing of the sinoatrial node.' Heart rate is controlled by an interplay between sympathetic and parasympathetic components. In turn HCN4 abnormalities have been implicated in congenital sick sinus syndrome. The authors sought to clarify the contribution of HCN4 to sinus node autonomic regulation. They created a novel gain-of-function mouse where the HCN4 activity could be modulating from zero to three times normal. They then evaluated ambulatory heart-rate variability and responsive heart rate to vagus nerve stimulation. They found HCN4 over-expression did not increase heart rate, but attenuated heart-rate variability. It also attenuated bradycardic response to vagus nerve stimulation. Knockdown of HCN4 in turn lead to sinus arrhythmia and enhanced parasympathetic response. These data suggest HCN4 attenuates sinus node response to vagal stimuli thus stabilizing spontaneous firing of the node. The clinical application of this remain to be seen but are maybe important in that they highlight a mechanism for a heretofore poorly understood mechanism for how exactly HCN4 abnormalities may lead to sick sinus syndrome. Within the realm of ventricular arrhythmias we highlighted a number of articles published this past month. The first article we review was published in last month's issue of JACC clinical electrophysiology, entitled characterization of the electrode atomic substrate and cardiac sarcoidosis: correlation with imaging findings of scarring inflammation published by [inaudible 00:41:40] et al. In patients with cardiac sarcoidosis one of the questions is how to define the electronic atomic substrate, particularly before we entered the electrophysiology laboratory. Both active inflammation and replacement fibrosis maybe be seen in patients. The authors evaluated in 42 patients with cardiac sarcoidosis, the association between an abnormal electrograms and cardiac imaging findings including PET and Computed Tomography, as well as Cardiac MRI. They noted that amongst these 40 patients, a total of 21,000 electrograms were obtained, and a total of 19% of these were classified as abnormal. Most of the abnormalities occurred in the basal paravalvular segments and intraventricular septum. They further noted that many of these abnormalities in terms of electrograms were located outside the low voltage areas, particularly as it relates to fractionation. In about 90% of patients they notice late gadolinium enhancements and they noted abnormal FDG uptakes suggesting active inflammation in about 48%. However, it should be noted that only 29 of the 42 patients underwent cardiac imaging. Segments with abnormal electrograms tended to have more late gadolinium enhancement evidence scar transmurality, and also they noted that the association of abnormal PET scan did not necessarily occur with abnormal electrograms. Thus, they concluded that in patients with cardiac sarcoidosis and ventricular tachycardia pre-procedural imaging with cardiac MRI could be useful in detecting electroanatomic map abnormalities that may in turn be potential targets for substrate ablation. However, they were more likely associated with more scar transmurality and lower degrees of inflammation on PET scanning. These data are important in that they highlight potential non-invasive means by which to understand where substrate might occur in patients with the cardiac sarcoidosis. It is well recognized that cardiac sarcoidosis is associated with increased risk of ventricular arrhythmias. These risks have increased ventricular arrhythmias, might be targetable with ablation. Newer therapies might even offer non invasive means by which to perform ablation in patients best. Thus if we could identify non based on mechanisms of identifying the substrate, this will be even more critical. The critical findings of this particular paper lie in noting that most of the abnormalities still is in intra ventricular sePtum in basal segments, and also that it is MRI in late gadolinium enhancement and associates more with the abnormal electrograms. Interestingly, the absence of inflammation correlating with the presence of more abnormal electrograms suggests that it is not so much the act of inflammation as being reflected in the endocardial map, but the existence of scar. Next, again within JACC clinical electrophysiology we review an article by Porta-Sánchez et al. entitled 'Multicenter Study of Ischemic Ventricular Tachycardia Ablation With Decrement Evoked Potential Mapping With Extra Stimulus.' The authors sought to conduct a multicenter study of decrement evoked potential base functional tech ventricular tachycardia substrate modification to see if such mechanistic and physiologic strategies could result in reduction in VT burden. It is noted that really only a fraction of the myocardium in what we presume to be substrate based on the presence of low voltage areas are actually involved in the initiation and perpetuation of VT. Thus if we can identify the critical areas within the presumed substrate for ablation, this would be even a better way of potentially honing in on our targets. They included 20 consecutive patients with ischemic cardiomyopathy. During substrate mapping fractionated late potentials were targeted and an extra stimulus was provided to determine which display decrements. All patients underwent DEEP focus ablation with elimination being correlated with VT non-inducibility after radio-frequency ablation. Patients were predominantly male, and they noted that the specificity of these decrement evoked potentials to detect the cardiac isthmus for VT was better than that of using late potentials alone. They noted 15 of 20 patients were free of any VT after ablation of these targets over six months of follow-up, and there was a strong reduction in VT burden compared to six months pre ablation. They concluded that detriment evoked potential based strategies towards ablation for ventricular tachycardia might identify the functional substrate and those areas most critical to ablation. They in turn regarded that by its physiologic nature it offers greater access to folks to ablation therapies. This publication is important in that it highlights another means by which we can better hone in on the most critical regions for substrate evaluation in patients with ventricular tachycardia. The fact is more extensive ablation is not necessarily better and might result in increased risk of harm if we think about the potential effects of longer ablations or more ablation lesions. Thus if we could identify ways of only targeting those areas that are most critical to the VT circuits, we could perhaps short and ablation procedural time, allow for novel ways of approaching targeted ablation with limited amounts of ablation performed, or perhaps even improve overall VT outcomes by knowing the areas that are most critical to ensure adequate ablation therapy provided. However, we need to understand that this is still a limited number of patients evaluated in a non randomized manner. Thus whether or not more extensive ablation performed might have been better is as of yet unclear Staying within the realm of ventricular tachycardia we review an article published in last month's issue of Heart Rhythm by Winterfield et al. entitled the 'Impact of ventricular tachycardia ablation on healthcare utilization.' Catheter ablation of atrial tachycardia has been well accepted to reduce recurrent shocks in patients with ICDs. However, this is a potentially costly procedure, and thus effect on overall long-term health care utilization remains to be seen. The authors sought to evaluate in a large scale real world retrospective study the effect of VT ablation on overall medical expenditures in healthcare utilization. A total 523 patients met study inclusion criteria from the market scan database. After VT ablation median annual cardiac rhythm related medical expenditures actually decreased by over $5,000. Moreover the percentage of patients with at least one cardiac rhythm related hospitalization an ER visit decreased from 53 and 41% before ablation respectively, to 28 and 26% after ablation. Similar changes we're seeing in number of all cause hospitalizations and ER visits. During the year before VT ablation interestingly there was an increasing rate of healthcare resource utilization, but a drastic slowing after ablation. These data suggests that catheter ablation may lead to reduced hospitalization in overall healthcare utilization. The importance of these findings lies in understanding why we do the things we do. We can provide a number of therapies to patients, but we seek two different effects. One is the individual effect of improving their particular health. The second thing is trying to avoid increasing healthcare expenditures on a population level and making sure resources are utilized. If we can reduce recurrent hospitalizations and overall healthcare expenditure in patients by providing a therapy in addition to provide individual benefit, this is the optimal situation. These data suggests that VT ablation might provide such a benefits, that in fact it reduces overall healthcare utilization while improving overall outcomes. Next and finally within the realm of ventricular arrhythmias, we review more on the basic side the role of Titin cardiomyopathy leads to altered mitochondrial energetics, increased fibrosis and long-term life-threatening arrhythmias, published by Verdonschot et al. in last month's issue of European Heart Journal. It is known now that truncating Titin variants might be the most prevalent genetic cause of dilated cardiomyopathy. Thus, the authors sought to study clinical parameters and long term outcomes related to Titin abnormalities in dilated cardiomyopathy. They reviewed 303 consecutive and extensively phenotype dilated cardiomyopathy patients who underwent cardiac imaging, Holter monitoring, and endomyocardial biopsy and in turn also underwent DNA sequencing of 47 cardiomyopathy associated genes. 13% of these patients had Titin abnormalities. Over long-term followup they noted that these patients had increased ventricular arrhythmias compared to other types of dilated cardiomyopathy, but interestingly, they had similar survival rates. Arrhythmias in those Titin abnormal patients were most prominent in those who were subjected to an additional environmental trigger, including viral infection, cardiac inflammation, other systemic disease or toxic exposure. They also noted the cardiac mass was relatively reduced in titan admirable patients. They felt that all components of the mitochondrial electron transport chain we're simply up-regulated in Titin abnormal patients during RNA sequencing and interstitial fibrosis was also augmented. As a result, they concluded that Titin variant associated dilated cardiomyopathy was associated with an increased risk of ventricular arrhythmias, and also with more interstitial fibrosis. For a long time we have reviewed all non ischemic cardiomyopathy as essentially equal. However, more recent data has suggested that we can actually hone in on the cause. In turn, if we hone in on the cause, we might be able to understand the effects of specific therapies for ventricular arrhythmias based on that underlying cause. Patchy fibrosis might not be as amenable, for example, to ablation as discreet substrate that we might see in infarct related VT. Understanding the relative benefit in very specific types of myopathies might hold benefit in understanding how to, one, risk stratify these patients, and two, understand what type of therapy, whether pharmacologic or ablative, might result in greatest benefit to the patients. Changing gears entirely now to the role of genetics, we review multiple articles in various genetic syndromes published this past month. First, we reviewed an article by Providência et al. published in the last month's issue of heart entitled 'Impact of QTc formulae in the prevalence of short corrected QT interval and impact on probability and diagnosis of short QT syndrome.' The authors sought to assess the overall prevalence of short corrected QT intervals and the impact on diagnosis of short QT syndrome using different methods for correcting the QT interval. In this observational study they reviewed the sudden cardiac death screening of risk factors cohorts. They then applied multiple different correction formulae to the ECGs. They noted that the prevalence of individuals with the QTc less than 330 and 320 was extremely low, namely less than .07 and .02% respectively. They were also more frequently identified using the Framingham correction. The different QTc correction formulae could lead to a shift of anywhere from 5 to 10% of individuals in the cohort overall. They further noted, that based on consensus criteria, instead of 12 individuals diagnosed with short gut syndrome using the Bazett equation, a different number of individuals would have met diagnostic criteria with other formulae, 11 using Fridericia, 9 with Hodges, and 16 using the Framingham equation. Thus, they noted that overall the prevalence of short QT syndrome exceedingly low and an apparently healthy adult population. However, reclassification as meeting criteria might be heavily dependent on which QT correction formula is used. The importance of these findings is that not all QTs are created equal. Depending on how you compute the QT interval in which formula to use may affect how you actually risk characterize a patient. Unfortunately, these data do not necessarily tell us which is the right formula, but this highlights that it might be relevant to in the future evaluate the role of different formulae and identifying which is the most necessary to classify a patient. Moving on to an article published in last month's issue of the journal of clinical investigation by Chai et al. we review an article entitled 'Physiological genomics identifies genetic modifiers of Long QT Syndrome type 2 severity.' Congenital Long QT Syndrome is a very well recognized, inherited channelopathy associated life-threatening arrhythmias. LQTS type 2 is specifically caused by mutations in casein to encoding the potassium channel hERG. However, even with the mutation not all patients exhibit the same phenotype. Namely some patients are more at risk of life threatening arrhythmias in spite of having the same mutation as others who do not exhibit the same severity phenotype. The authors sought to evaluate whether specific modifiable factors within the remaining genetic code might be modifying the existing mutation. Thus, they sought to identify contributors to variable expressivity in an LQT 2 family by using induced pluripotent stem cell derived cardiomyocytes and whole exome sequencing in a synergistic manner. They found that patients with severely effected LQT 2 displayed prolonged action potentials compare to sales from mildly effected first-degree relatives. Furthermore, stem cells derived from patients were different in terms of how much L-type calcium current they exhibited. They noted that whole exome sequencing identified variants of KCNK17 and the GTP-binding protein REM2 in those patients with more severe phenotypes in whom greater L-type calcium current was seen. This suggests that abnormalities or even polymorphisms in other genes might be modifying the risk attributed to by mutations in the primary gene. This showcases the power of combining complimentary physiological and genomic analysis to identify genetic modifiers and potential therapeutic targets of a monogenic disorder. This is extraordinarily critical as we understand on one level that when we sequence a monogenic disorder that there might exist variants of uncertain significance, namely they have not been classified as disease causing, but could be. In turn, we also recognize that mutations in a family might effect different relatives differently. However, why this is has been relatively unclear. If we can understand and identify those patients who are most at risk of dangerous abnormal rhythms, this will be useful in how much to follow them, and what type of therapy to use in them. The fact that other genes might modify the risk even in the absence of specific mutations, suggests that novel approaches to characterizing the risk might help for the risk modified patients classification in general. Clinical use, however, remains to be seen. Moving on from long QT, we evaluate 'The Diagnostic Yield of Brugada Syndrome After Sudden Death With Normal Autopsy' noted in last month's issue of the Journal of American College of Cardiology and published by Papadakis et al. It is well known, the negative autopsies are not uncommon in patients, however, families might be wondering how at risk they are. Thus, the authors sought to assess the impact of systematic ajmaline provocation testing using high right precordial leads on the diagnostic yield Brugada syndrome in a large cohort of Sudden Arrhythmic Death syndrome families. Amongst 303 families affected by Sudden Arrhythmic Death Syndrome evaluation was done to determine whether or not there was a genetic inherited channelopathy cause. An inherited cardiac disease was diagnosed in 42% of the families and 22% of relatives Brugada syndrome was the most prevalent diagnosis overall amongst 28% of families. Ajmaline testing was required, however, to unmask the Brugada Syndrome in 97% of diagnosed individuals. Furthermore, they use of high right precordial leads showed a 16% incremental diagnostic yield of ajmaline testing for diagnosing Brugada syndrome. They further noted that a spontaneous type 1 regard or pattern or a clinically significant rhythmic event developed in 17% of these concealed regardless syndrome patients. The authors concluded the systematic use of ajmaline testing with high right precordial leads increases the yield of Brugada Syndrome testing in Sudden Arrhythmic Death Syndrome families. Furthermore, they noted that assessments should be performed in expert centers or patients could also be counseled appropriately. These findings are important and one of the big questions always becomes how aggressively to test family members of patients or of deceased individuals who experienced sudden arrhythmic death. Many of these patients have negative autopsies, and genetic autopsy might not be possible due to lack of tissue or blood products that can be adequately tested. The data here suggest that amongst a group of 303 sudden arrhythmic death, families that Brugada Syndrome is by far the most frequent diagnosis. If an inherited cardiac disease was identified. In turn, it is not ECG alone or echo alone that helps identify them, but requires drug provocation testing in addition to different electrode placements. Whether or not this will consistently offer benefit in patients in general or my result in overcalling remains to be seen next within the realm of genetic predisposition. We view an area where we don't know if there's a genetic predisposition in article published by Tester et al. entitled Cardiac Genetic Predisposition in Sudden Infant Death Syndrome in last month's issue of the journal of american college of cardiology. Sudden Infant Death Syndrome is the leading cause of post-neonatal mortality and genetic heart diseases might underlie some cases of SIDS. Thus the authors sought to determine the spectrum and prevalence of genetic heart disease associated mutations as a potential monogenic basis for Sudden Infant Death Syndrome. They study the largest cohort to date of unrelated SIDS cases, including a total of 419 individuals who underwent whole exome sequencing and targeted analysis for 90 genetic heart disease susceptibility genes. Overall, 12.6% of these cases had at least one potentially informative genetic heart disease associated variants. The yield was higher in those mixed European ancestry than those of European ancestry. Infants older than four months were more likely to host a potentially informative gene. Furthermore, they noted that only 18 of the 419 SIDS cases hold a [inaudible 01:01:26] or likely pathogenic variant. So in other words, only 4% of cases really had a variant that they could say was distinctly pathogenic or likely pathogenic. Thus, overall, the minority of SIDS cases have potentially informative variant in genetic heart disease susceptibility gene, and these individuals were mostly in the 4 to 12 month age group. Also, only 4% of cases had immediately clinically actionable variance, namely a variant, which is well recognized as pathogenic and where we could actually say that a specific therapy might have had some effect. These findings can have major implications for how best to investigate SIDS cases in families. It might suggest that SIDS cases where the individual was older, nearly 4 to 12 months of age might have a greater yield in terms of identifying variance. While this might not affect the deceased in fit, it might affect, families are planning on having another child in whom a variant can be identified. Finally, within the realm of genetics, we review an article published in last month's issue of Science Advances by Huang. et al. entitled 'Mechanisms of KCNQ1 Channel Dysfunction in Long QT Syndrome Involving Voltage Sensor Domain Mutations'. Mutations that induce loss of function of human KCNQ1 underlie the Long QT Syndrome type 1. While hundreds of mutations have been identified the molecular mechanism by which they result in impaired function are not as well understood. The authors sought to investigate impact of 51 specific variants located within the voltage sensor domain and emphasized effect on cell surface expression, protein folding, and structure. For each variant efficiency of trafficking of the plasma membrane, impact of proteasome inhibition, and protein stability were evaluated. They noted that more than half of the loss of function mutations were seen to destabilized structure of the voltage sensor domain, generally accompanied by mistrafficking and degradation by the proteasome. They also noted that five of the folding defective Long QT Syndrome mutant sites were located in the S0 helix, where they tend to interact with a number of other loss of function mutation sites in other segments of the voltage sensor domain. They suggested these observations reveal a critical role for the S0 helix as a central scaffold to help organize and stabilized KCNQ1 overall. They also note the importance of these findings is that mutation-induced destabilization of membrane proteins may be a more common cause of disease functioning in humans. The importance of these findings lies in better understanding why specific mutations lead to appa
Commentary by Dr. Valentin Fuster
Dr. Paul Wang : Welcome to the monthly podcast On the Beat for circulation, arrhythmia and electrophysiology. I’m Dr. Paul Wang editor in chief with some of the key highlights from this month’s issue. We’ll also hear from Dr. Suraj Kapa reporting on new research for the latest journal articles in the field. The first article in this month's issue is by Yoav Michowitz and Associates who examine the morphological ECG characteristics of left posterior fascicular ventricular tachycardia and differentiated from right bundle branch block and left anterior hemiblock aberrancy. 183 ECGs with left posterior fascicular ventricular tachycardia in patients who underwent ablation were identified using a systematic Medline search were examined and compared to 61 ECGs with right bundle branch block in left anterior hemiblock aberrancy with no obvious cardiac pathology by echocardiography. Using four variables including atypical right bundle branch block like V1 morphology, positive QRS in aVR, V6R greater than S ratio of less than one and QRS less than or equal to 140 ms, a prediction model was developed that predicted posterior fascicular ventricular tachycardia with a sensitivity of 82% and a specificity of 78%. Patients with three out of four positive variables had a high probability of having left posterior fascicular ventricular tachycardia whereas patients with less than or equal to one positive variable always had right bundle branch block plus left anterior hemiblock. In the next article, Anna Thøgersen and associates describe a case series of 10 patients in whom implantable cardioverter defibrillators failed to treat ventricular tachyarrhythmias. The authors examine whether consensus derive generic rate threshold cutoffs between 185 and 200 beats per minute were employed in this case series. In nine patients, ventricular fibrillation did not satisfy program detection criteria. Five patients died with untreated ventricular fibrillation, four had cardiac arrest requiring external shocks and one was rescued by a delayed ICD shock. Seven of these patients had slowest detection rates that were consistent with generic recommendations but not tested in a peer review trial for their manufacturer’s ICDs. In the reported cases, manufacturer specific factors interacted with fast detection rates to withhold therapy including strict ventricular fibrillation episode termination rules, enhancements to minimize T-wave over sensing and features that restrict therapy to regularly rhythms in VT zones. Untreated ventricular fibrillation despite recommended programming accounted for 56% of the deaths and 11% of all of deaths. The authors concluded that complex and unanticipated interactions between manufacturer specific features and generic programming can prevent therapy for ventricular fibrillation. In the next article, Miguel Rodrigo and associates describe from 17 simulations of atrial fibrillation, atrial flutter and focal atrial tachycardia the ability to understand signal processing that can affect identification of reentrant activity using electrograms, body surface potential mapping and electrocardiographic imaging ECGI phase maps. Reentrant activity was identified by singularity point recognition and raw signals and in signals after narrow band pass filtering at the highest dominant frequency. Reentrant activity was identified without filtering in 60% of unipolar records but filtering was required to increase reentrant activity detection from 1% to 62% in bipolar recordings. The filtering resulted in residual false reentrant activity in about 30% of bipolar recordings. The authors concluded that rotor identification is accurate and sensitive and does not require additional signal processing in measured or noninvasively computed unipolar electrograms while bipolar electrograms and body surface potential mapping do require highest dominant frequency filtering in order to detect rotors at the expense of a decrease specificity. In the next article, Raymond Yee and associates examine the ability of a new automated antitachycardia pacing algorithm to reduce ICD shocks. The new automated ATP algorithm was based on electrophysiologic first principles and prescribed the ATP sequences in real time using the same settings for all patients. In 144 patients who had dual chamber or CRT ICDs as well as a history of one or more ICD treated VT or VF episodes or a recorded sustained monomorphic ventricular tachycardia episode. Detection was sent to ventricular fibrillation interval detection of 24 out of 32 ventricular tachycardia interval detection of 16 or greater in a fast VT zone of 242 to 320 ms. There were 1,626 treated episodes in 49 patients over 14.5 month’s follow up. Data logs permitted adjudication of 702 episodes including 669 sustained monomorphic ventricular tachycardia episodes, 20 polymorphic ventricular tachycardia episodes, 10 SVT episodes and three mal sensing episodes. The novel automated antitachycardia pacing algorithm terminated 39 out of 69 episodes or adjusted 59% of the sustained monomorphic ventricular tachycardia events in the fast VT zone, but 509 out of 590 or 85% adjusted in the VT zone and 6 out of 10 in the VF zone. No SVTs were converted to VT or VF and no anomalous ATP behavior was observed. The authors concluded that this new automated ATP algorithm could be used safely in all zones without need for individualized programming. In the next study Pablo Ávila and associates studied the incidence and clinical predictors of atrial tachycardias in adults in a cohort of 3,311 patients with congenital heart disease. Prospectively followed in a tertiary center for 37,607 person years. The study patients were divided into three categories; 49% simple, 39% moderate and 12% complex congenital heart disease. In this cohort, 153 or 4.6% of patients presented with atrial tachycardia. The atrial tachycardia burden was highest in complex congenital heart disease such as single ventricle 22.8% or D-TGA 22.1%. The authors found that univentricular physiology, previous intracardiac repair, systemic right ventricle, pulmonary hypertension, pulmonary regurgitation, pulmonary AV valve regurgitation and pulmonary and systemic ventricular dysfunction were independent risk factors for developing atrial tachycardia. At the age of 40 years, atrial tachycardia free survival in patients with zero risk factors was 100%. With one risk factor, it was 94%. With two risk factors was 76% and three or more risk factors was 50%. These authors confirm these findings in a validation cohort. In the next article, Khidir Dalouk and associates compare clinical outcomes between ICD patients followed up in a telemedicine videoconferencing clinic and a conventional in person clinic. In this retrospective study, the authors compared time to first appropriate ICD therapy, time to first inappropriate ICD therapy, time to first shock and overall survival. The authors studied 287 patients in the telemedicine videoconferencing clinic group and 236 patients in the conventional in person clinic over mean follow-up duration of 4.8 years. The authors found that telemedicine videoconferencing clinic was not inferior to in person follow-up for the pre-specified outcomes. In the next article, Elisabeth Mouws and associates studied the epicardial breakthrough waves in sinus rhythm possibly giving insight to the arrhythmogenic substrate in atrial fibrillation. In 381 patients with ischemic or valvular heart disease, intraoperative epicardial mapping with intro electro distance of 2 mm was performed of the right atrium, Bachmann’s bundle, the left atrioventricular groove and the pulmonary vein area. Epicardial breakthrough waves were referred to as sinus node breakthrough waves if they were the earliest right atrial activated site. A total of 218 epicardial breakthrough waves and 57 sinus node breakthrough waves were observed in 168 patients or 44%. Epicardial breakthrough waves mostly occurred at the right atrium and 48% at the left atrioventricular groove and 31% followed by Bachmann’s bundle and 12% and the pulmonary vein area and 9%. Epicardial breakthrough waves occurred most often in ischemic heart disease patients 49% to valvular patient's 17%. Epicardial breakthrough wave electrograms most often consisted of double or fractionated electrograms seen in 63%. Fractionated epicardial breakthrough wave potentials were more often observed at the right atrium or Bachmann's bundle. The authors concluded that epicardial breakthrough waves are present in over a third of patients possibly indicating muscular connections between the endocardium and epicardium that may enhance the occurrence of epicardial breakthrough waves during atrial fibrillation promoting AF persistence. In the next article, Shouvik Haldar and associates compare horizontal and vertical orientation bipolar electrograms with novel omnipolar peak to peak voltages in sinus rhythm and atrial fibrillation using a high density fixed multi-electrode plaque placed on the epicardial surface of the left atrium in dogs. Bipolar orientation had significant impact on bipolar electrogram voltages obtained either in sinus rhythm or atrial fibrillation. Omnipole Vmax values were 99.9% larger than both horizontal or vertical electrograms in sinus rhythm in larger than horizontal or vertical electrograms in atrial fibrillation. Further vector analysis of omnipole electrograms showed that omnipolar electrograms can record electronic voltage unaffected by collision and fractionation. The authors concluded that omnipolar electrograms can attract maximal voltages from AF signals which are not influenced by directional factors, collision or fractionation compared to contemporary bipolar techniques. In our final article for the month, Pauline Quenin and associates examine the efficacy of screening in relatives of subjects who died suddenly. The authors provided clinical screening to 64 families who experienced unexplained sudden cardiac death before age 45 in a prospective multicenter registry. The diagnosis was established in 16 families, 25% including Brugada syndrome, long QT syndromes, dilated cardiomyopathy and hypertrophic cardiomyopathy. The diagnostic yield was mainly dependent on a number of screen relatives with 3.8 screen relatives in the diagnosed family versus 2.0 in the non-diagnosed families rising to 40% with at least three relatives. It additionally increased from 9% to 41% when both parents were screened. Diagnostic performance was also dependent on the exhaustiveness of the screening. 70% of complete screening versus 25% with incomplete screening with 17 Brugada syndrome and 15 long QT syndrome diagnoses based on pharmacologic tests. The authors concluded that even without autopsy, familial screening after sudden death in young patients is effective greatly increasing the likelihood of diagnosis in families. That's it for this month but keep listening. Suraj Kapa will be surveying all journals for the latest articles on topics of interest in our field. Remember to download the podcast On the Beat. Take it away Suraj. Suraj Kapa: Thank you Paul. It is my pleasure to welcome everybody back to our continued series of On the Beat articles from across the electrophysiology literature especially selected to highlight their potential importance in terms of either current or future practice within the realm of cardiac electrophysiology. Again, my name is Suraj Kapa and it is my pleasure to walk us through a variety of hard-hitting articles. Today we’ll be starting within the realm of atrial fibrillation specifically as it relates to cardiac mapping and ablation. The first article was by Iwasawa et al entitled Temperature Controlled Radiofrequency Ablation for Pulmonary Vein Isolation in Patients with Atrial Fibrillation published in volume 70 of the Journal of the American College of Cardiology. In this article, Iwasawa and colleagues discuss the role of novel temperature controlled irrigated ablation catheter to attempt to obtain deeper transmural lesions in cardiac tissue, specifically they tested the utility of a diamond embedded tip for rapid cooling accompanying six surface thermocouples to better reflect tissue temperature. They demonstrated in this first in human series that a temperature controlled irrigated ablation could produce rapid, efficient and durable PV isolation. The importance of this particular article lies in the continued development of novel tools that can achieve pulmonary vein isolation either more safely or more quickly. This was highlighted in the article by Iwasawa et al when they demonstrated that the mean radiofrequency application duration was significantly less by almost a factor of three and those using the novel radiofrequency ablation catheter versus those with older models. They also noted that there was lower acute dormant pulmonary vein re-conduction rates and patients tend to have more frequent durable isolation when remapped after ablation. While the study group only consisted of 35 patients within the treatment group and 35 patients within the control group, the potential of these novel catheters to achieve aims of both shortening procedure duration as well as improving procedure and success need to be taken in consideration. The next article is by Dr. Gopinathannair entitled Atrial Tachycardia after Surgical Atrial Fibrillation Ablation Clinical Characteristics, Electrophysiological Mechanisms and Ablation Outcomes from a large multicenter study published in the August 2017 issue of JACC Clinical Electrophysiology. In this article, Dr. Gopinathannair reviews the outcomes of cardiac mapping and ablation targeted atrial tachycardias occurring after surgical atrial fibrillation ablation. They reviewed a large number of patients nearly 137 undergoing catheter ablation for symptomatic postsurgical atrial fibrillation ablation atrial tachyarrhythmias across three high volume institutions in the United States. They demonstrated that the vast majority had a left atrial origin though up to a third also had a right atrial origin further atrial tachyarrhythmias. The predominant circuits noted were cavotricuspid isthmus but also frequently perimitral roof and left or right pulmonary veins. In addition, most of the patients namely 93% had at least one pulmonary vein reconnection requiring re-isolation. The key point with the article however were the outcomes. They demonstrated that acute termination inducibility could be achieved in as many as 97% of right atrial and 93% of left atrial tachyarrhythmias in the setting of prior surgical ablation. Furthermore, 12 month followup demonstrated an 80% success rate. Traditionally, surgical atrial fibrillation ablation is seen as a complex procedure with the remapping of arrhythmias requiring a lot more complexity. However, these findings cross a large group of patients suggesting that we can have a high rate of success should propose to individuals that perhaps targeted ablation at these postsurgical atrial tachyarrhythmias should be amenable towards ablation especially at high volume complex ablation centers. Next will discuss the article by Pathik et al entitled Epicardial-Endocardial Breakthroughs through Stable Macroreentry: Evidence from ultra-high-resolution three-dimensional mapping published in Heart Rhythm in August 2017. In this article, the group of Pathik et al decided to review whether epicardial-endocardial breakthrough could be discerned during stable right atrial macroreentry using high density and high spatial resolution three-dimensional mapping. Twenty-six patients were studied and they noted that up to 14 patients had evidence of epicardial-endocardial breakthrough. Using systematic entrainment confirmation, stable atrial macroreentry with epicardial-endocardial breakthrough was consistently demonstrated. The principle of epicardial-endocardial breakthrough or dissociation is critically important during cardiac mapping. While widely accepted for ventricular mapping, the tradition because of lack of available tools and atrial mapping has suggested that endocardial only mapping should reveal the entire cardiac circuits. Advances in signal processing as well as cardiac mapping techniques and technologies has allowed for better discernment of potentially deeper manifestations of cardiac tissue involvement in cardiac arrhythmias. As been well recognized that there can be significant epicardial and endocardial dissociation in cases of persistent atrial fibrillation. The article by Pathik et al is important in that it highlights that such events can manifest themselves even in the setting of relatively organized or stable atrial macroreentry. Part of the reason this becomes so critical is that when we consider endocardial only remapping and rely on these signals alone, we may run into situations where we miss a significant chamber of atrial tissue namely the epicardium, thus the focus of this article and the consideration of it in the clinician's repertoire of cardiac mapping and ablation should lie in an understanding of the fact that the entire story of an electrical circuits may not be told by traditional endocardial mapping alone without consideration for epicardial-endocardial breakthrough. The next article we will focus on is by Dr. Chun et al regarding the impact of cryoballoon versus radiofrequency ablation for paroxysmal atrial fibrillation on healthcare utilization and costs and economic analysis. This was from the FIRE and ICE Trial published in the Journal of the American Heart Association this past month. In this study they sought to assess payer cost following cryoballoon or radiofrequency catheter ablation for paroxysmal atrial fibrillation. They demonstrated that there are cost savings of as much as $355,000 related to the use of cryoballoon over traditional radiofrequency catheter ablation. This reduction in resource use and payer costs was consistent across three different national healthcare systems. Furthermore, the reason for the reduced cost was primarily attributable to fewer repeat ablations and a reduction in cardiovascular rehospitalizations with cryoballoon ablation. In this era of cost reduction, it is important to consider the potential implications of use of novel technologies in terms of procedural costs. The ability to identify novel techniques that can actually both reduce costs and either achieve equal or improved outcomes needs to be strongly considered. While the three national healthcare systems reviewed here might not reflect all healthcare systems or all insurance needs, it still brings up an important economic consideration that all novel technology may not necessarily result in increased costs, and utilization must be considered both in the context of the particular system as well as the particular provider. Changing pace, we’ll move on with an atrial fibrillation to the role of anticoagulation. The first major article recently published is by Pollack et al regarding the use of Idarucizumab for dabigatran Reversal, the full cohort analysis published the New England Journal of Medicine. Idarucizumab is a monoclonal antibody fragments developed to reverse the anticoagulant effect with dabigatran and represents the first reversal agent available for reversal of any of the novel oral anticoagulant drugs. In this study which is both multicenter, prospective and open label, patients were enrolled to undergo treatment with this reversal agents. A total 503 patients were included and the median maximum percentage reversal dabigatran was 100% which was measured using the diluted thrombin time or the ecarin clotting time. In those with active bleeding, the median time to cessation of bleeding was around 2.5 hours. Furthermore, in a surgical cohorts who underwent reversal in order to accommodate them going to surgery, the time to initiation of an intended procedures was 1.6 hours with periprocedural hemostasis assessed as normal in 93%, mildly abnormal in 5% and moderately abnormal in 1.5%. Thrombotic events occurred in about 6.3% of patients undergoing reversal because of active bleeding and then 7.4% undergoing reversal for surgical accommodation. Mortality rates were around 18% to 19%. Thus it was demonstrated that in emergency situations Idarucizumab can rapidly, durably and safely reverse the anticoagulant effect of dabigatran. However, it is important to note that there was a signal for thrombotic events and consideration of the risk of rapid reversal of anticoagulation regardless of the type of anticoagulation in combination with the actual need for reversal should be considered in the patient context. The next article we will review is by Jackevicius et al entitled Early Non-persistence with Dabigatran and Rivaroxaban in Patients with Atrial Fibrillation, published in Heart this past month. In this article, the group reviewed how patients manage being on their novel oral anticoagulants over the course of time after initial diagnosis and prescription. One of the concerns regarding novel oral anticoagulants is given the fact that there is no actual tracking or no actual measurements needed to ensure continued adherence to the drug, whether or not there will be higher rates of nonpersistence with use of these novel oral anticoagulants. Amongst 15,857 dabigatran users and 10,119 rivaroxaban users, they noted that at six months about a third of patients were nonpersistent with either drug. In those patients who were nonpersistent with use of the drug, the combined endpoint of stroke, TIA and death was significantly higher with hazard ratios of 1.76 in the dabigatran cohort and 1.89 in the rivaroxaban cohort. Furthermore, the risk of stroke or TIA was markedly higher in nonpersistent patients with about a hazard ratio of 3.75 in dabigatran nonpersistence and 6.25 in rivaroxaban nonpersistence. Given these relatively high rates of nonpersistence in clinical practice and the negative outcomes associated with nonpersistence, this highlights the importance of continued validation of the need for persistence with use of oral anticoagulation in patients prescribed these perceived to be at high risk of stroke associate with atrial fibrillation. In an era of improving drug use or improving drugs that can be used without the need for blood testing, it must also be considered that these drugs may be more easily stopped on the patient's own discretion without any knowledge from a provider as there is no active blood test associated. Thus this further highlights the importance of continued discussion between patients and physicians over the course of therapy and care regarding the need for continuation. Changing paces. We review the article by Godier et al entitled Predictors of Pre-procedural Concentrations of Direct Oral Anticoagulants a prospective multicenter study published at the European Heart Journal. We all know that one of the major issue with a direct oral anticoagulants is that these patients frequently undergo elective invasive procedures and in this setting the management can be very challenging specifically as it relates to when the direct oral anticoagulants should and can be safely stopped. In clinical practice, there is wide variability in the timing by which providers inform patients to stop these new oral anticoagulants prior to invasive procedure. In this prospective multicenter study, 422 patients were evaluated with preprocedural DOAC concentrations and routine hemostasis assays performed to determine those patients who achieved a minimal preprocedural concentration based on the timing of their discontinuation of the drug. They ranged the duration of discontinuation of the oral anticoagulant from 1 to 218 hours. They noted after a 49 to 72 hour discontinuation period, 95% of the concentration of the direct oral anticoagulants in patients had levels that were significantly low suggesting safety and proceeding with any sort of invasive procedure. Thus a 72 hour discontinuation period predicted sufficiently low concentrations of DOACs with 91% specificity. In multivariable analyses, duration of the DOAC discontinuation with creatinine clearances and antiarrhythmics were independent predictors of a minimal preprocedural DOAC concentration, namely better renal function, longer duration of DOAC discontinuation and interestingly the use of antiarrhythmic drugs were all associated with lower DOAC concentrations. The conclusion from this article was a last DOAC intake of three days before a procedure resulted in a minimal preprocedural anticoagulant effect for almost all patients considered. The exception would be in moderate renal impairment especially in dabigatran treated patients and antiarrhythmics in anti-Xa-treated patients could result in the need for longer DOAC interruption. Thus, the key things here to note are that antiarrhythmics can result in the need for longer DOAC interruption to achieve minimal blood concentrations and that similarly moderate renal impairment especially in dabigatran treated patients may result in the same. Another outcome other studies suggested a lack of association between routine assays such as routine hemostasis assays and DOAC concentrations suggesting that in situations where testing is believed to be needed routine assays should not replace DOAC concentration measurement in decision-making regarding whether or not the DOAC has sufficiently gone down in concentration to safely proceed. Along these lines, the final article we will review within the realm of anticoagulation is by Brendel et al entitled the Anticoagulant Effect of Heparin during Radiofrequency Ablation in Patients Taking Apixaban or Rivaroxaban published in the Journal of Interventional Cardiac Electrophysiology this past month. One concern regarding the use of the direct oral anticoagulants is the fact that during procedures where heparin is needed, knowledge of how much heparin to give is unclear. This is both in the setting of understanding what the synergistic effect of the simultaneous and continued use of apixaban or rivaroxaban or other direct oral anticoagulants in combination with heparin might be and also what the effect on actual activated coagulation time might be. As it is felt that be ACT may not necessarily reflect the true anticoagulant activity of drugs. Thus in a prospective study, Brendel et al studied about 90 patients with atrial fibrillation undergoing radiofrequency ablation procedures. During radiofrequency ablation, unfractionated heparin was given to maintain ACT of 250 to 300 ms with blood samples taken before and up 360 minutes after heparin administration. They demonstrated that heparin displayed a lower anti-Xa activity in rivaroxaban treated patients compared to apixaban treated patients. In contrast, D-dimer and prothrombin fragment F1+2 plasma levels indicated a higher activation of the coagulation cascade in apixaban/heparin combinations than in rivaroxaban/heparin combinations. While there was clear differences in the level of anticoagulant effect, depending on which DOAC was combined with heparin, they had no clinical impact in terms of bleeding or thromboembolic complications from the procedure. This article is significant in that it highlights that there are clear and different biochemical responses based on which DOAC is used in combination with heparin during radiofrequency ablation. While in the small study, there was no clear effect on clinical impact, precautions should still be considered when monitoring periprocedural hemostasis in DOAC patients to avoid mismanagement especially considering the variability that might occur between DOACs themselves and not just between DOACs and warfarin. Changing paces to risk stratification and management within atrial fibrillation. We’ll review the article by Labombarda et al entitled Increasing Prevalence of Atrial Fibrillation and Permanent Atrial Arrhythmias in Congenital Heart Disease published in this past month's issue of the Journal the American College of Cardiology. In this article, they sought to assess the types and patterns of atrial arrhythmias, associate factors and age-related trends in a multicenter cohort of patients with adult congenital heart disease. What they demonstrated is that by far the most common presenting arrhythmia was intraatrial reentrant tachycardia in almost two-thirds of patients with the remaining including atrial fibrillation in up to 30% of patients and focal atrial tachycardias in up to 10% of patients. The association of intraatrial reentrant tachycardia with congenital heart disease was stronger with higher complexities of congenital heart disease. With those with more complex defects having a higher frequency of IART than those with simple effects. Furthermore, as is commonly seen in the general population, the frequency of atrial fibrillation increased with age to eventually suppress IART as the most common arrhythmia in those greater than equal to 50 years of age. The predominant arrhythmia pattern was paroxysmal in almost two-thirds of patients though almost 30% were persistent. Furthermore, the frequency of permanent atrial arrhythmias increased with age. While it is commonly seen that patients with congenital heart disease were living longer and as a result it is expected that the frequency of arrhythmias in this population will likely increase. The interesting outcome from the study is the high frequency of intraatrial reentrant tachycardia as the presenting atrial arrhythmia in patients with congenital heart disease and also with the predominantly paroxysmal pattern. The finding also that atrial fibrillation increases in prevalence highlights the importance of closely monitoring these patients in order to assess for anticoagulation needs and options for treatment. Changing gears to cellular electrophysiology. We focus on an article by Qiao et al entitled transient Notch activation induces long-term gene expression changes leading to sick sinus syndrome in mice published in this past month's issue of Circulation Research. Notch signaling programs cardiac conduction during development and in the adult ventricle. It is noted that injury can induce notch reactivation resulting in global transcriptional and epigenetic changes. Thus, the group sought to determine whether notch reactivation may alter atrial ion channel gene expression arrhythmia inducibility. They demonstrated that notch signaling regulates transcription factor in ion channel gene expression in adult atrial myocardium. With reactivation inducing electrical changes resulting in sinus bradycardia, sinus pauses and a susceptibility atrial arrhythmias, altogether contributing to a phenotype resembling sick sinus syndrome. The importance of these findings lies in the mechanism underlying sick sinus syndrome. While we search for genetic clues for why patients might develop atrial fibrillation or sick sinus syndrome or sinus bradycardia as they age, the importance of activation of typically quiet signaling patterns in the adult myocardium and their role in arrhythmogenesis is important because it might highlight novel targets for treatment. Understanding how the arrhythmogenic substrate develops and the mechanisms underlying it, may allow for a better understanding of why in certain patients certain drugs may be effective or not or certain invasive therapies may be effective or not. Next with the realm of electrocardiography, we’ll review the article by Christophersen et al entitled 15 Genetic Loci Associated with Electrocardiographic P-wave published in Circulation Genetics this past month. Similar to the previous article by Dr. Qiao et al, the importance of the article by Christophersen et al lies in the identification of a number of genetic underpinnings for what forms the final electrocardiographic P-wave that is seen. Six novel genetic loci associated with P-wave duration and six novel loci associated with P-wave terminal force were identified by the group. Both in the case of the transient Notch activation findings as well as in the findings related to a specific genetic loci associated with electrocardiographic P-wave abnormalities might highlight potential genetic targets either with existing drugs not traditionally used for atrial electrophysiology or potentially future drug targets. Changing gears yet again, we’ll move on to their own sudden death cardiac arrest and specifically to an article published by Fallavollita et al entitled the denervated myocardium is preferentially associate with sudden cardiac arrest in ischemic cardiomyopathy a pilot competing risks analysis of cost specific mortality. Previous studies identify multiple factors associated with total cardiac mortality but we all recognize the ejection fraction has limited value. Thus within this article published in Circulation: Cardiovascular Imaging, the group decided to do a competing risks analysis the National Institutes of Health sponsored prediction of arrhythmic events with positron emission tomography trial. They demonstrated that sudden cardiac arrest was correlated with greater volumes of denervate myocardium based on defects on positron emission tomography using a norepinephrine analog carbon 11 hydroxy ephedrine. However, they also demonstrated that other factors such as lack of angiotensin inhibition therapy, elevated BNP and large left particular end-diastolic volume were further associated with sudden cardiac arrest. The importance of potential modifying factors to better attribute cardiac arrest risk and thus the need for defibrillator or other therapies in patients with myopathy needs to continue to be highlighted especially in light of recently published Danish and other studies suggesting that the mortality benefit conferred by ICD is an ischemic and nonischemic populations may not be equivalent in newer studies. The fact that further risk stratification opportunities can exist underlying the pathophysiologic basis for why these patients develop ventricular arrhythmias is critical. While recognized for a few decades now that myocardial denervation may be associated with sudden cardiac arrest risk, this study highlights the continued need for further study to help further clarify these populations. Moving onto the realm of genetic channelopathies, we review the article by Anderson et al entitled Lidocaine Attenuation Testing: An in vivo Investigation of Putative LQT3-Associated Variants in the SCN5A-encoded sodium channel published in this past month's issue of Heart Rhythm. Long QT syndrome type 3 represents one of the more difficult types of long QT syndrome to adequately diagnose both by genetic testing as well as through traditional means. Approximate 2% of healthy individuals can have rare variance of uncertain significance in the SCN5A channel and thus distinguishing true LQT3 causative mutations for background genetic noise can be quite difficult in this population. Anderson et al decided to assess the utility of lidocaine attenuation testing in evaluating patients with possible LQT3. They gave a loading dose of 1 mg per kg of intravenous lidocaine followed by continuous infusions of 50 micrograms for 20 minutes. If the corrected QT interval shortened by at least 30 ms, the LAT was defined as positive. They demonstrated that use of this test can help distinguish true LQT3 causative mutations from otherwise noncontributory variance of uncertain significance. Thus in this era of increasing genetic testing where one might identify a variant of uncertain significance in either a family member affected with sudden cardiac arrest or in a patient being evaluated for any sort of uncertain significant variant, the use of lidocaine testing in those variance as they apply to LQT type 3 may offer significant clinical use. Next we will review the article by Ishibashi et al published in this past month's edition of Heart entitled Arrhythmia Risk and Beta Blocker Therapy in Pregnant Woman with Long QT Syndrome. One of the biggest concerns of patients with long QT syndrome especially woman is pregnancy. The fact is because of the different hormonal states, it is possible that pregnancy may alter arrhythmic risk and the safety of beta blocker therapy given both the potential fetal effects as well as the continued efficacy at the level those seen previously. Thus Ishibashi et al reviewed 136 pregnancies across 76 long QT pregnant patients. They retrospectively analyzed clinical and electrophysiological characteristics in pregnancy outcomes in both the presence and absence of beta blocker therapy. All of the beta blocker group had prior events while the majority of the nonbeta blocker group had not been diagnosed with pregnancy. Pregnancy was noted to increase heart rate in those not treated with beta blockers, but interestingly, between the two groups there was no significant difference over the course of pregnancy in QT intervals. In the beta blocker group, only two events occurred and these were relegated to the postpartum period. However, 12 events occurred in the nonbeta blocker group either during pregnancy and half or in the postpartum period and the remaining half. There was no difference in this frequency of spontaneous abortion between the two groups, and furthermore, fetal growth rates and proportion of infants with congenital malformation were similar between the two groups. However, premature delivery and low birth weight infants were more common in those taking beta blockers. Given the high risk of events and the relative safety of beta blocker therapy in this population of patients with long QT who become pregnant, it was felt that the use of early diagnosis and beta blocker therapy could be critical both the during pregnancy and during the postpartum period. It was also felt the beta blocker therapy may be tolerated for babies in long QT pregnant patients. This highlights that the continued use of beta blockers throughout the pregnancy and consideration of the introduction of beta blockers in those not already on them during pregnancy may be an important consideration. Finally within the realm of genetic channelopathies, we focus on the article by Roberts et al entitled Loss of Function in KCNE2 Variants: True Monogenic Culprits of Long QT Syndrome or Proarrhythmic Variants Requiring Secondary Provocation published in this past month's issue of Circulation: Arrhythmia Electrophysiology. As we identify more and more genes the baby is associated with long QT syndrome, the understanding of the clinical phenotype associated with that syndrome requires better study. In this particular study, Roberts et al reviewed the role of long QT syndrome type 6 stemming from mutations in the KCNE2 encoded voltage gated channel beta subunits. They reviewed mutations identified during arrhythmia evaluation from either inherited arrhythmia clinics or the Rochester long QT syndrome registry. They demonstrated that the high allelic frequencies of LQT6 mutations in the Exome aggregation consortium database and the absence of previous documentation of genotype phenotype segregation suggest many KCNE2 variants and potentially all were actually erroneously designated as LQT as causative mutations. Instead, it was felt the KCNE2 variants may actually confer proarrhythmic susceptibility when provoked by additional environmental and/or acquired or genetic factors. What they are saying is that identifying the KCNE2 variants as the principal culprits may be over calling the role of the KCNE2 variants and instead it might be a combination of effects such as two hit affect the requires further provocation by either outside or additional genetic factors. Furthermore, complex genetic studies were likely needed to better understand how variants and genes that may not have been previously designated as disease causing play a role in the actual disease process, whether as potentiating other factors that might exist that might also otherwise be relatively benign or as unique singular hits that might by themselves result in the clinical phenotype. Next moving onto the realm of ventricular arrhythmias, we first focus on an article published in this past month's issue of the American Journal of Physiology, Heart and Circulatory Physiology by Howard Quijano et al entitled Spinal Cord Stimulation Reduces Ventricular Arrhythmias during Acute Ischemia by Attenuation of Regional Myocardial Excitability. In this article, they demonstrated in a porcine model ventricular ischemia that spinal cord stimulation decrease sympathetic nerve activation regionally in ischemic myocardium while having no effect on normal myocardium. They demonstrated that the antiarrhythmic effects conferred by spinal cord stimulation were likely secondary to attenuation of some sympathoexcitation locally in ischemic myocardium rather than changes in the global myocardial electrophysiology. This is important because it highlights the mechanisms by which spinal cord stimulation may confer in antiarrhythmic benefits in both animal and human models. As we search for novel interventions that can be used for the treatment of ventricular arrhythmias, understanding the underlying pathophysiologic mechanisms by which they work is critical. The understanding that the use of spinal cord stimulation is primarily conferred in a regional way primarily in terms of its effect on an ischemic myocardium, further study is also needed in terms of how the effect is seen in nonischemic myopathies where there may be more patchy scar in the same role of denervation, nerve sprouting and hyper innervation may play different roles. In the next article we choose to focus on is by Berte et al entitled a New Cryo-energy for Ventricular Tachycardia Ablation a Proof of Concept Study published in this past month's edition of Europace. One of the key problems in ventricular tachycardia ablation is the lack of transmural lesion formation. This is an important determinant of arrhythmia recurrence. Thus the group decided to do a proof of concept study to evaluate the safety and efficacy of a new and more powerful cryoablation system for ventricular ablation. They demonstrated that a novel cryoablation system to create large transmural ventricular lesions, whether it delivered by endocardial or epicardial approach. It was felt that this technology can hold potential for both surgical and catheter-based VT ablation in humans. While primarily studied in sheep models, it nevertheless highlights the importance of novel therapies that might better achieve through and through lesions. There are many different novel products being developed for the hope of achieving transmural lesions partly to target the myocardial circuits and partly to ensure achievement of through and through lesions without leaving residual potential substrate, because of only partial thickness lesions. These include things like needle ablation catheters, the safety of which still has to be fully evaluated, bipolar ablation or the use of technology such as novel cryo-energy approaches. Comparative efficacy of these different approaches however will be critical to determining which one is safest and best in any given clinical situation. Next we’ll review the article by Venlet et al published this past month's issue of Circulation Arrhythmia and Electrophysiology entitled Unipolar Endocardial Voltage Mapping in the Right Ventricle: Optimal Cutoff Values Correcting for Computed Tomography-derived Epicardial Fat Thickness and their clinical value for substrate delineation. The work by [inaudible 00:53:37] and others highlighted the importance of using unipolar and bipolar voltage cutoffs and helping delineate areas of both endocardial as well as potentially more distal such as epicardial scar during endocardial mapping. It is felt the low endocardial unipolar voltage during bipolar voltage mapping endocardially may indicate epicardial scar. However, the primary issues, the additional presence of epicardial fat both in the right ventricle and left ventricle and how this epicardial fat may effect normal unipolar voltage cutoffs. Thus, Venlet et al decided to review using computed tomography data the effective epicardial fat on unipolar voltage cutoffs. They demonstrated that endocardial unipolar voltage cutoff of 3.9 millivolts was more accurate than previously reported cutoff values for right ventricular epicardial scar during endocardial mapping. It was further demonstrated that while epicardial abnormal electrograms may be associated with transmural scar when associated with low endocardial bipolar voltage, the additional use of endocardial unipolar voltage and normal bipolar voltage sites can improve the diagnostic accuracy resulting in identification of all epicardial abnormal electrograms at sites with less than 1 mm of fat. Thus, the unipolar voltage not only assisted in evaluating whether epicardial scar was present, but also in further clarifying epicardial abnormal electrograms in terms of whether or not they truly represented potential transmural scar. Finally, within the realm of electrogram mapping of ventricular arrhythmias, we focus on the article by Magtibay et al entitled Physiological Assessment of Ventricular Myocardial Voltage using Omnipolar Electrograms published in the Journal of the American Heart Association this past month. Bipolar electrograms are traditionally used to characterize myocardial health. However, dependence on these electrograms may reduce the reliability of voltage assessment along different planes of arrhythmic myocardial substrates. Thus, newer catheters rely on evolving tools that might allow for different approaches to bipolar mapping. Using omnipolar electrograms, Magtibay et al studied in healthy rabbits, pigs and diseased humans under paced conditions the role of two bipolar electrode orientations both horizontal and vertical. Voltage maps were created for both bipoles and omnipoles, and they noted that electric orientation affected the bipolar voltage map with an average absolute difference between horizontal and vertical of up to 0.25 millivolts in humans. Thus, they demonstrated omnipoles can provide physiologically relevant and consistent voltages along the maximal bipolar direction and provide an advantage over traditionally obtained bipolar electrograms. When we consider the use of evolving techniques to get an understanding of myocardial health whether for the purpose of cardiac mapping and ablation or even for the purpose of other intervention such as cardiac biopsy, understanding what the voltage abnormalities perceived actually are is critical to understanding what substrate is actually being targeted. However, given directionality issues in terms of assessment of voltage as well as relative orientation of the catheter in understanding the relevance of received voltage, use of novel signal processing and electro designs are important to consider in the light of their effects on substrate mapping compared to traditional techniques. Changing gears yet again, but nevertheless related to cardiac mapping and ventricular arrhythmias, we focus on article by Yalagudri et al published in this past month's issue of the Journal of Cardiovascular Electrophysiology entitled A Tailored Approach for Management of Ventricular Tachycardia in Cardiac Sarcoidosis. While in a small number of patients, nearly 14 patients, they attempt to develop a methodology for approaching patients with cardiac sarcoidosis for management of their ventricular arrhythmias. Patients with either cardiac myocarditis or cardiac sarcoidosis represent a particularly difficult cohort to treat. Prior work by Dr. Roderick Tung and others has demonstrated the high-frequency of perceived inflammatory abnormalities based on cardiac FDG PET scanning amongst patients with ventricular arrhythmias. Whether this reflects cardiac sarcoidosis or other hypermetabolic activity is unclear. However, how to take into account the FDG PET abnormalities when deciding whether or not to take a patient for ablation or how to best treat them in light of their primary disease process is critical. In this study, the group tried to tailor therapy for ventricular tachycardia and cardiac sarcoidosis according to the phase of disease results. Namely based on the degree of inflammation noted on the FDG PET scan. They noted that via their named clinical protocol, that this tailored therapy could result in good clinical outcome and avoid unnecessary immunosuppression in some patients. Whether or not the use of this tailored therapy approach may apply in larger populations remains to be seen. Finally within the realm of other EP concepts that might apply broadly across the electrophysiology landscape, we focus on two articles. The first is by Kudryashova et al entitled Virtual Cardiac Monolayers for Electrical Wave Propagation in Nature Scientific Reports this past month. It is the complex structure of cardiac tissue that is considered to be one the main determinants of whether a substrate becomes arrhythmogenic or not. Multiple mathematical and computational models have been developed in order to recapitulate this complex cardiac structure. However, there been varying degrees of limitations in these approaches. Using a joint in silico-in vitro approach, the group carefully characterized the morphology of cardiac tissue and cultures of neonatal rat ventricular cells and then proposed mathematical models to result in tissue morphology that could be recapitulated for virtual studies of cardiac electrophysiology mainly in order to study wave propagation. They demonstrated in their virtual cardiac monolayers, that the simulated waves had the same anisotropy ratios and wave form complexity as those in in vitro experimental models. Thus, they demonstrated that they could reproduce both the morphological and physiological properties of cardiac tissue in a virtual landscape. These findings are critical to improving the ability to better study the effects of different antiarrhythmic drugs or interventional techniques on overall cardiac electrophysiology. The difficulty in existing techniques using traditional in vitro cultures is the fact that they’re costly and requires sacrifice of animals that adds to the additional cost of routine studies. The ability to recapitulate actual hearts within a virtual landscape to mimic the cardiac electrophysiology and then study it in a more controlled setting that can be reproducible based on the availability of appropriate computing power is important in terms of future studies within the realm of our field. The final article we will review is by Das and Dutta published in Physical Review E this past month entitled Controlling Three-Dimensional Vortices using Multiple and Moving External Fields. One of the key studies over the course of the last several years has been that of the role of the spiral and scroll waves in not just atrial fibrillation but ventricular fibrillation and other arrhythmias. It is well recognized that the spiral or scroll waves depending on whether one thinks in a two dimensional or three dimensional substrate may have significant contribution to arrhythmogenesis. Whether targeting the spiral or scroll waves actually eliminates arrhythmias remains to be fully elucidated. However, it also remains to be elucidated exactly how one should control the spiral or scroll waves. The review by Das and Dutta demonstrated that in fact the spiral or scroll waves could actually be physically moved around and controlled using moving external electric fields and thermal gradients. They show that the scroll rings can be made to trace cyclic trajectories on a rotating electric field or that application of thermal gradients in addition to electric field could deflect the motion and change the nature of a trajectory of a spiral or scroll wave. These findings are important in that they might represent non-ablative techniques that can eventually be used to control spiral or scroll waves in cardiac media, and thus result in either their alteration or termination without the need for additional cardiac injury. One the biggest problems with additional cardiac ablation in cases such as atrial fibrillation is the fact that they often lead to additional regions of scarring that might lead towards further organized atrial arrhythmias. However, the ability to potentially terminate critical sites responsible for arrhythmogenesis in real time without the need for ablation may represent novel interventions or devices in the future. I appreciate everyone's attention to these key and hard-hitting articles that we have just focus on from this past month of cardiac electrophysiology across the literature. Thanks for listening. Now back to Paul. Dr. Paul Wang : Thanks Suraj. You did a terrific job surveying all journals for the latest articles on topics of interest in our field. There is not an easier way to stay in touch with the latest advances. These summaries and a list of all major articles in our field each month could be downloaded from the Circulation: Arrhythmia and Electrophysiology website. We hope that you’ll find the journal to be the go to place for everyone interested in the field. See you next month.
Dr. Wang: Welcome to the monthly podcast On The Beat for Circulation, Arrhythmia and Electrophysiology. I'm Dr. Paul Wang, editor-in-chief, with some of the key highlights from this month's issue. We'll also hear from Dr. Suraj Kapa, reporting on new research from the latest journal articles in the field. This month's issue of Circulation: Arrhythmia and Electrophysiology has a number of fascinating and important articles. Let's start with the first article by Philip Halbfass and Associates, which describes the use of esophageal endoscopy in patients undergoing atrial fibrillation ablation. Of 1,802 patients undergoing afib ablation, 832 underwent post-procedural esophageal endoscopy. All patients were ablated using a single tip re-circular ablation catheter. Category one lesions described as erythema erosion were seen in 98 out of these 295 patients, while in 52 out of the 295 patients, ulceration was seen. In three of the 832 patients, esophageal perforation occurred, and in two of the 832 patients, atrial-esophageal fistula occurred. Esophageal perforation only occurred in patients with category two lesions with an absolute risk of 9.6%. The authors concluded that post-ablation esophageal endoscopy is able to identify patients with high-risk lesions. One out of 10 patients with post-ablation esophageal ulcers progressed to perforation, while no patients without esophageal ulcers showed evidence of perforating complications. In the next article by Christian Sohns and Associates describes the relationship between atrial fibrosis identified with magnetic resonance imaging and atrial rotor activity identified by noninvasive electrophysiological mapping. Ten patients underwent pulmonary vein isolation for persistent atrial fibrillation. Late gadolinium enhancement using magnetic resonance imaging, which projected onto the anatomy used for noninvasive electrophysiologic mapping. The noninvasive electrophysiologic mapping identified 410 rotors evenly distributed between the left atrium and the right atrium. This study found that there was no statistically significant association between the presence of late gadolinium enhancement and the presence of rotors. In the next article written by Jereon Venlet examines the endocardial unipolar voltage that best identifies abnormal epicardial electrograms. Thirty-three patients underwent endocardial epicardial right ventricular electro-anatomical mapping in ablation of right ventricular scar-related ventricular tachycardia. Eighty-six percent of abnormal epicardial electrograms had corresponding endocardial sites with bipolar electrogram less than 1.5 millivolts. The remaining abnormal epicardial electrograms could be identified by endocardial unipolar voltages of less than 3.7 millivolts. The authors concluded that this use of endocardial unipolar voltage cut off at normal bipolar voltage sites improves the identification of all abnormal epicardial electrograms where there is less than 1 millimeter of fat. The next article by Alan Bulava and Associates examines the outcomes of hybrid epicardial and endocardial radial frequency ablation, a persistent atrial fibrillation. Seventy patients underwent the epicardial thoracoscopic procedure followed by endocardial mapping ablation two to three months later. At the time of catheter ablation, 76% of patients were in sinus rhythm. All four pulmonary veins were found to be isolated in 69% of the patients and the left atrial posterior wall was isolated in 23% of the patients. In the 12 months after the catheter ablation, 77% were arrhythmia-free, off antirrhythmic drugs. The majority of arrhythmia occurrences occur during the first 12 months following catheter ablation. Using previously ineffective antiarrythmics drugs and re-ablation procedures, arrhythmia-free survival increased to 97% during a mean followup of 936 days. Left atrial volume greater than 165 milliliters, the absence of sinus rhythm before catheter ablation and induce-ability of any sustained tachyarrhythmia at the end of catheter ablation predicted atrial fibrillation recurrence. The authors concluded that the majority of patients after epicardial ablation required endocardial catheter ablation to complete the linear ablation or pulmonary vein isolation lesion sets. In the next article, Jason Roberts and Associates studied the clinical phenotype of Type 6 Long QT Syndrome, stemming from mutations in the KCNE2 encoded voltage gated channel beta subunit. The authors examined individuals reported pathogenic KCNE2 mutations collected from inherited arrhythmia clinics in the Rochester LQTS registry as well as previously reported LQT6 cases identified through a med-line database search. Of 44 probands studied, 16 probands had resting QTC intervals and only developed QT prolongation and malignant arrhythmias following exposure to QT prolonging stressors. Ten had other Long QT pathogenic mutations and 10 did not have a Long QT phenotype, with the remaining eight subjects having a Long QT phenotype, but with evidence suggesting that the KCNE2 variant was not the underlying culprit. The authors noted that the collective frequency of KCNE2 variance implicated in Long QT6 syndrome in the exome aggregation consortium database was 1.4%, in comparison with the 0.0005% estimated clinical prevalence of LQT6 syndrome. Thus, the authors concluded that based on clinical phenotype, the high allelic frequencies of LQT6 mutations in the exome consortium database, in absence of prior documentation of genotype phenotype segregation, many KCNE2 variants, and perhaps all have been erroneously designated as long QT syndrome causative mutations. Instead, KCNE2 variants may confer pro-arrhythmic susceptibility when provoked by additional environmental acquired or genetic factors. In the next article, Alexander Quinn and Associates examine how mechanically-induced ectopy may cause ventricular fibrillation, the mechanism of commotio cordis. It is known that the block of stretched sensitive ATP inactivated potassium channels limits ventricular fibrillation occurrence in a porcine model of commotio cordis. In isolated rabbit heart preparations using optical voltage mapping combined with pharmacological block of potassium ATP or stretch activated cation nonselective channels, the authors showed that the mechanical stimulation reliably triggers premature ventricular excitation at the contact site with induce-ability predicted by local tissue indentation. Mechanically-induced premature ventricular excitation induction is decreased by stretch activated cation nonselective channel block. The authors also found that mechanically-induced premature ventricular excitation resulted in ventricular fibrillation only if the mechanical stimulation site overlaps the re-polarization wave edge in hearts where T-waves involve a well-defined re-polarization edge traversing the epicardium. This defines a narrow subject-specific vulnerable window for commotio cordis-induced ventricular fibrillation in both time and space. In the next article Matthias Seidl and Associates examine the gene expression required for development of atrial fibrillation in a transgenic mouse model. Recent studies showed that atrial fibrillation susceptibility is associated with down regularization of target genes of the CREB/CREM family of transcription factors. CREB/CREM refers to cyclic and P-response element binding protein modulator. Short CREM repressor isoforms like CREM-IbΔC-X bind to cyclical A&P responsive elements preventing transcriptional activation. Messenger RNA for CREM-IbΔC-X is up-regulated in atrial biopsies from patients with paroxysmal or chronic atrial fibrillation. The authors examined transgenic mice expressing CREM-IbΔC-X, which spontaneously developed atrial fibrillation proceeding to permanent fibrillation with age. The authors found that the most prominent alterations of the gene program linked to CREM-induced atria modeling were identified in expression of genes related to structure, metabolism, contractility and electrical activity regulation. In the next article by Takumi Yamada and Associates electrophysiologic characteristics of the idiopathic ventricular arrhythmias originating from the parietal band, one of the muscle bands of the right ventricle, were examined. Of 294 consecutive patients with right ventricular origins, 14 patients had ventricular arrhythmia origins in the parietal band. All patients have left bundle block pattern with 12 inferior and two superior axis. All patients had the notch in the middle of the curess in all cases. Seven patients had precordial transition before lead V3 and four patients had a slow curess onset. Far field ventricular electrogram with an early activation was always recorded in His bundle region regardless of the location of the ventricular arrhythmia origin. During the catheter ablation, a mean number of 10.4 radio frequency of applications with a mean duration of 1,099 seconds were delivered. Catheter ablation was successful in 10 patients and ventricular arrhythmias recurred in four with a mean followup of 41 months. In the Advances in Arrhythmia and Electrophysiology section, the Buza and Associates have reviewed cancer treatment-induced arrhythmias. The authors describe ECD advances in arrhythmias associated with individual cancer chemotherapeutic agents. Now here with a review of the highlights from the articles from journals throughout the world in the past month, is Dr. Suraj Kapa. Dr. Kapa: Hello. Today we're going to be going over several hard hitting articles we have identified that seem to stand out in the electrophysiological literature from the month of July 2017. The first area we will be delving into is that of atrial fibrillation. Specifically related to cardiac mapping and ablation. The first article in this area that we've chosen was published by Samuel et al. in the Journal of Cardiovascular Electrophysiology entitled Catheter Ablation for the Treatment of Atrial Fibrillation Is Associated with a Reduction in Healthcare Resource Utilization. Samuel et al. reviewed data from a large population base cohort in Quebec, Canada including over 1,500 patients undergoing cardiac ablation for atrial fibrillation. They demonstrated that healthcare resource utilization including hospitalizations, emergency room visits and cardioversions were significantly reduced both 12 months as well as 24 months after the next ablation. These findings seem to suggest that catheter ablation has a sustained overall impact on resource utilization amongst patients with atrial fibrillation. While the study was not randomized and was a retrospective evaluation of outcomes, these findings are provocative. Certainly as we wait for the results of the Cabana trial in about one year we hope to see whether or not cardiac ablation carries the weight of potential beneficial impacts both in terms of long-term care as well as long-term outcomes. Of course being a retrospective evaluation, one question that lies with regards to these findings is whether or not the reduction in resource utilization might be a byproduct of improved ambulatory care of these patients or whether it's a byproduct of patients understanding their disease process better, and thus perhaps not seeking emergency room care or hospitalization as frequently. The next publication we'll focus on was published by Anselmino et al. in The International Journal of Cardiology entitled Conduction Recovery Following Catheter Ablation in Patients with Recurrent Atrial Fibrillation and Heart Failure. This publication synergizes with several other publications that have come out in the month of July. Focusing on the publication by Anselmino et al., they reviewed retrospectively patients undergoing redo atrial fibrillation ablation in the setting of underlying heart failure. What they demonstrated was that nearly a third of patients had no pulmonary vein reconnection, but tended to have more persistent forms of atrial fibrillation suggesting more extensive atrial substraights. This study is complimentary to a publication by [inaudible 00:15:23] et al., published in JACC EP. this past month where they evaluated the longterm outcomes of patients who, when presenting for redo atrial fibrillation ablation had persistent pulmonary vein isolation. In that article, they found that nearly 17% of patients presenting for redo ablation had persistent pulmonary vein isolation. Moreover, these patients tended to perform significantly worse in terms of longterm outcomes than those who presented with PV reconnection, with about a 56% freedom from affiliate swipe after we do ablation in the setting of persistent pulmonary vein isolation as opposed to 76% when there was PV reconnection seen. So the question becomes if we see this greater atrial substraight, should we automatically be doing more ablation? Of course as we all know, there have been many studies performed trying to tease out whether additional ablation in patients who might have more significant atrial substraight carries benefits. In this regard, Fink et al. in last month's edition of Circulation, Arrhythmia and Electrophysiology demonstrated that in fact as an index procedure of performing a stepwise concomitant café plus linear ablation on top of pulmonary vein isolation in persistent and long standing persistent atrial fibrillation patients did not necessarily confer an increased likelihood of longterm success over pulmonary vein isolation alone. Thus, the jury continues to still be out as far as what the right strategy is in many of these patients. However, these studies highlight the importance of continued evaluation and understanding of how we can use information about atrial substraight to guide our ablation procedures more successfully. Changing gears, we'll move on the pathophysiology mechanisms of disease within atrial fibrillation. The article we will choose to focus on here was published by Die et al. in The Journal of Cardiovascular Electrophysiology entitled The Effects of Extrinsic Cardiac Nerve Stimulation on Atrial Fibrillation Induce-ability: The Regulatory Role of the Spinal Cord. Over the course of the last several years many investigators have sought to show that modulation of the autonomic nervous system can successfully alter cardiac electrophysiology and provide antiarrythmic benefits. However, when subject to prospective trials such as the recently published Defeat HF Trial, they have not necessarily found clear benefit. Thus, a critical question becomes how we translate our animal models into human treatment. The interesting results from Die et al. lie in the fact that they looked at the effects of spinal cord stimulation and spinal cord block in addition to concomitant stimulation of other centers such as the venous nerve, the stellate ganglion and ganglionated plexi. They demonstrated that spinal cord stimulation enhanced the effects of venial nerve stimulation while attenuating the effects of stimulating the left stellate ganglion or ganglionated plexus. In turn, the combinations of these different levels of stimulation had different effects on affiliate swipe induce-ability, whether significantly increasing or decreasing the potential. The reason this article is important is it highlights the extensive cross linking and synergy that exists within the autonomic nervous system and that attention paid to only a single center of autonomic innovation may not be sufficient for certain paradigms of care. This past month there were also two reviews summarizing the role of the autonomic nervous system and modulation of that nervous system and the treatment of arrhythmias. The first was by Witt et al. and Europace. The other by Schwartz et al. in the International Journal of Cardiology. These articles help the reader understand the extensive crosslinking and cross communication that might occur, that might sometimes defeat our efforts to use a single element of the autonomic nervous system to modulate cardiac arrhythmias. Changing gears yet again, we'll move on to risk stratification and management for atrial fibrillation. Perino et al. in last month's edition of The Journal of the American College of Cardiology published an article entitled Treating Specialty in Outcomes in Newly Diagnosed Atrial Fibrillation from the Treat AF Study. They present data based on a very large cohort of over 180,000 veterans regarding the effect of treating specialty on atrial fibrillation outcome. Interestingly they demonstrated that when a cardiologist was involved in the care of the patient, there was an overall decrease in stroke and mortality. Albeit with a concomitant increase in hospitalization for AF. The stroke reduction seen was also seen to be secondary to better anticoagulation prescription within 90 days of diagnosis when those patients were seen by a cardiologist as compared with a general internist. This earlier prescription anticoagulation however did not mediate the mortality reduction. These data presented by a Perino et al. are provocative in this era of rising healthcare costs. The question is, as atrial fibrillation rates rise, as the general population ages, how quickly and how aggressively we should engage specialty care early on in patient evaluation. The data by Perino et al. suggests that maybe this engagement should occur earlier. Part of the reasons for this might be improved understanding of current evidence regarding treatment of such patients or better systems of care that allow for providers to identify patients who might need alterations and care faster. However, if anything this is hypothesis-generating. Why anticoagulation prescriptions are delayed when patients are not seen by a specialist or why there would be a difference in mortality are important factors to review further. In this past month Hernandez et al. in Stroke published an article discussing the large degree of geographic variation that exists with regards to appropriate anticoagulation prescription in patients with atrial fibrillation. They demonstrated that there's extensive inhomogeneity across the United States in terms of how and in whom anticoagulation gets prescribed. Thus, how much of these outcomes are specialist-driven, geographically-driven or based on elements of access to care or other issues are going to be important features that have to be evaluated. The next article in risk stratification was published by Mostofsky et al. in Heart, entitle Chocolate Intake and Risk of Clinically Apparent Atrial Fibrillation: The Danish Diet, Cancer and Heart Study. In this study they demonstrated in a population of over 55,000 patients that when accounting for as many variables as they could, higher chocolate intake, more than once per month, was associated with a decreased atrial fibrillation risk when compared with those consuming less chocolate than once per month. Of course, they note that despite these attempts to account for multiple confounding variables, residuary confounders cannot be accounted for. The relevance of this article lies in the question of lifestyle choices patients are asked to make when thinking about how to either prevent themselves from having atrial fibrillation or trying to even treat their atrial fibrillation risk. Chocolate has been shown to have multiple potential beneficial effects in multiple areas of cardiology, however, how to counsel patients with data like these becomes very difficult. The questions lies in how chocolate might mediate arrhythmia risk and how it might also modulate other potential risks such as weight gain or other factors. Thus while important to consider this in light of patients often asking what they can and cannot have, it is important to further consider that we don't understand the full story. The other key element to understand is that really when they say that chocolate intake reduces risk of clinically apparent atrial fibrillation they are speaking about moderate chocolate intake and not necessarily having it for three meals a day. Changing gears away from atrial fibrillation, we will next focus on the area of ICDs pacemakers and CRT. Aberi et al. in Nature's Scientific Reports published regarding inductively power wireless pacing via miniature pacemaker and remote stimulation control system. Their approach provides potential novel opportunities beyond currently available both lead-based and leadless pacemakers and improving battery and allowing for further miniaturization of such devices. They noted by creating a very novel inductive power supply they're able to miniaturize the pacing components and also significantly reduce the power requirements. In fact, they suggested that they could create a leadless device that could be as small as being delivered out of the anterior ventricular vein. This is the first report of such an inductively powered miniaturized pacing system with low enough power consumption that may prove viable for ambulatory human use. The desire to create improved pacing and fibrillation systems is further highlighted by an article published by [Kalu 00:25:41] et al. in JACC Clinical Electrophysiology this past month where they demonstrated initial results of percutaneous epicardially delivered partially insulated defibrillator lead. Work like these holds the potential to improve options for patients and in traditional vascular access is not desired, or an identifying new ways of delivering pacing therapy that exists outside the traditional lead base or even somewhat miniaturized leadless approaches. We'll next focus on the area of sudden death and cardiac arrest. The first article we'll focus on was published by Stecker et al. in The Journal of The American Heart Association entitled Health Insurance Expansion and Incidence of Out of Hospital Cardiac Arrest: A Pilot Study in the US Metropolitan Community. This article looked at the results of The Affordable Care Act, mainly health insurance expansion, on the rate of out of hospital cardiac arrest in a large US metropolitan community of over 600,000 people. They separately studied a middle aged population that might have been affected by healthcare expansion versus an older population, above 65, who would have had relatively stable insurance plans having been covered by Medicare both prior to and after this change in healthcare plans. They demonstrated that there was a significant decrease in overall out of hospital cardiac arrests amongst middle age people without any significant change amongst the more elderly Medicare population in the same time period. The time period studied was relatively short, nearly less than a decade. Of course, whether there were other events that might have occurred to alter this risk such as improvements in care beyond the combination of availability and mandates plus carrying health insurance, it remains to be seen. However, the data is very suggestive. Further evaluation at the national level in varying communities however would be useful, as well as consideration of population level cost benefit analysis. The next article published by Shen et al. in the New England Journal of Medicine entitled Declining Risk of Sudden Death in Heart Failure. They presented data across 40,000 patients from multiple clinical trials over two decades regarding the changing rates of sudden death amongst heart failure patients. Interestingly they noted there was an overall 44% reduction in sudden death rates across these trials over time dating from the 1990s to 2014. In the earliest trials considered, the mortality rate within 90 days after randomization was as high as 2.4% while the most recent trials suggest that that rate is more like 1.0%. This profound decline was attributed to improved usage and prescription of medications early on in the heart failure course, which may modulate outcomes. The relevance of these findings lies in trials that have been published recently and met analysis that we've discussed regarding utility of defibrillators in nonischemic cardiomyopathy or even ischemic cardiomyopathy. The recently published Danish study suggested that ICDs might not confer an equivalent mortality risk as what would have been expected years ago. However, this publication by Shen et al. is particularly provocative because it calls into question whether the same mortality benefit we anticipated from earlier heart failure trials should still be the rubric by which current defibrillator trials are powered. Namely, if we consider that Danish saw the 25% difference in mortality, with a 44% overall reduction in sudden death seen in trials over time for heart failure, seeking a 25% reduction might be excessive. Thus, this highlights the need to potentially power trials for ICDs and the benefit of such ICDs better. This importance of better stratifying better heart failure patients for sudden death risk has been raised in multiple articles this month, including in a review by Holiday et al. in Circulation and in the series of reviews published in Volume 237 of The International Journal of Cardiology. The last article we choose to focus on in the role of sudden death and cardiac arrest was published by Vehmeijer in Circulation: Arrhythmia and Electrophysiology entitled Prevention of Sudden Cardiac Death in Adults with Congenital Heart Disease: Do the Guidelines Fall Short? They reviewed outcomes amongst 26,000 adults with congenital heart disease in light of existing guidelines for risk prediction and prevention of sudden death. They demonstrated that less than half of the patients with sudden cardiac death actually had a guideline basis recommendation for an ICD on the basis of either the 2014 consensus statement on arrhythmias or the 2015 European Society of Cardiology Guidelines. These findings are very provocative in suggesting that we don't really understand who requires treatment amongst adults with congenital heart disease. With improved care paradigms, both with improvements in surgical outcomes as well as ambulatory care of these patients and recognition of need for interventions, arrhythmias are becoming a greater and greater problem amongst patients with adult congenital heart disease. However, large scale studies are limited in stratifying overall risk of arrhythmias. The risk is certainly present as many of these patients have ventricular scar often attributable to cardiac surgeries or have hemodynamic insults that may result in progressive fibrosis of the ventricles. In addition, the basal abnormalities of cardiac formation itself may lend itself to a sudden increased risk of arrhythmias. Thus, the question remains as how to best risk stratify these patients in order to reduce these overall sudden death rates. Changing gears yet again, we'll focus on two articles within the realm of cellular electrophysiology. The first article was published by Cerrone et al. in Nature Communications entitled Plakophilin-2 is Required for Transcription of Genes that Control Calcium Cycling and Cardiac Rhythm. They demonstrated that plakophilin-2, or PKP2, which is known to mediate arrhythmogenic right ventricular cardiomyopathy due to abnormalities in the desmosomes actually has other direct electrical effects independent of substraight effects that are seen. Specifically PKP2 plays a significant role in maintaining gene transcription for several genes that mediate normal electrophysiologic activity, such as the ryanodine receptor, calsequestrin and others. They demonstrated that this reduced expression of other genes secondary to PKP2 absence or abnormality leads to increased isoproterenol or adrenaline-induced arrhythmias that in turn can be suppressed with Flecainide. These findings are provocative in the fact that they suggest that it is possible for patients to have abnormalities of genes such as PKP2 that result in electrical abnormalities independent of the structural abnormalities. Furthermore, it suggests that manifestation of the disease such as catecholaminergic polymorphic ventricular tachycardia may be immediate upstream of typical channels associated with the disease. For example, if PKP2 reduces expression of the ryanodine receptor, this might result in manifestations similar to CPTB in some patients. Along the same lines, Hewitt et al. published in Science Advances regarding deregulated calcium cycling underlies the development of arrhythmia and heart disease due to mutant obscurin. Obscurins are a relatively growing area of interest as these are cytoskeletal proteins that have be associated with both hypertrophic and dilated cardiomyopathy. Similar to the story we just told about PKP2 however, they demonstrated that obscurins, likely through circa 2 and pentameric phospholamban can cause abnormal calcium handling. In fact, they demonstrated that the principle phenotype associated with obscurin abnormalities is one of an electrical abnormality, namely frequent PVCs. In turn, mechanical phenotypes such as cardiomyopathy result in the setting of chronic pathologic stress such as increased afterload, thus these findings demonstrate that genes such as obscurin or PKP2, which are commonly associated with structural or mechanical myopathic processes might have direct independent electrical effects. The story with obscurin raises further question into how this may apply to conditions of PVC-related cardiomyopathy or other such conditions. The other key point about these two areas of interest lie in the fact that it is possible as these genetic abnormalities mediate not just direct substraight elements, but arrhythmogenesis via abnormal channel expression, whether in all patients presenting with such specific genetic abnormalities substraight-based ablation alone will result in reduction of arrhythmia tendency. Of course this remains to be seen and is primarily hypothesis-generating. Next we'll focus on three articles within the area of genetic channelopathies. The first paper was published by Rohatgi et al. in The Journal of the American College of Cardiology entitled Contemporary Outcomes in Patients With Long QT Syndrome. In a large single center practice, they reviewed the results of over 600 patients predominantly affected by LQT1 or LQT2 and demonstrated that after initial evaluation along with treatment based on the individual, done at a highly skilled center, 92% of patients did not experience any breakthrough cardiac events over longterm followup. It was noted however, that the incidence of breakthrough cardiovascular events over longterm followup were far more common in patients who were symptomatic prior to their first evaluation than asymptomatic. In other words, if you were symptomatic prior to your first evaluation, the likelihood of a breakthrough cardiovascular event over longterm followup was as high as 25%, but if you were asymptomatic it was as low as 2%. These data suggest that our overall care of the Long QT patient is improving. However, it also supports that further improvements in care are needed as breakthrough cardiovascular events can continue to occur. It also highlights the importance of close followup of that symptomatic patient in the modern era. The second article was published by Kannenkeril et al. in JAMA Cardiology entitled the Efficacy of Flecainide in the Treatment of Catecholaminergic Polymorphic Ventricular Tachycardia. Flecainide currently carries a class 2A indication according to both the 2015 ENC guidelines and 2013 HRS AHRA APHRS consensus statement for treatment of patients with CPVT who fail max dose beta blockers. A lot of this evaluation however, has been based on retrospective evaluations. Kannenkeril reviewed in a prospective single blind placebo controlled crossover trial the effect of Flecainide on exercise associated arrhythmias in CPTV patients who were already on max tolerated beta blockers and had an ICD. Amongst the 14 patients included of whom 13 completed the study, they showed there was a significant reduction in median ventricular arrhythmia score during exercise and in fact there was complete suppression with Flecainide compared to the placebo of 85%. These findings thus add to the existing literature in terms the potential incremental value of Flecainide in achieving adequate arrhythmia suppression when used in conjunction with maximal tolerated beta blockers. The last article within the realm of genetic channelopathies we'll focus on was published by Yang et al. in The Journal of Physiology entitled A Multi-Scale Computational Modeling Approach Predicts Mechanisms of Female Sex Risk in the Setting of Arousal-Induced Arrhythmias. It is recognized that female gender can increase the risk of Torsades in the setting of both inherited and acquired prolonged QT syndromes. In a combination of experimental and computational approaches, Yang et al. demonstrated that hormone concentrations can partly mediate this risk, specifically as it relates to her-related mutations. They demonstrated testosterone and high progesterone levels provide a protective effect against Torsades. However, estrogen can enhance Torsadogenic potential, particularly in the setting sympathetic stress. They also demonstrated the mechanism by which this likely occurs is due to interaction of estrogen with pore loop or intracavity binding site of the her channel. In fact, on top of this they demonstrated that combined treatment with both estrogen and Dofetilide can simultaneously blockade the pore channel of her. These findings are provocative and hypothesis-generating. In terms of potential future research to further clarify risk for patients, particularly as it may apply to menstruating females who might have varying levels of estrogen, especially when being treated with concomitant QT prolonging agents such as Defetilide. Next we will focus on three articles within the realm of ventricular arrhythmias. The first article was published by Sapp et al. in JACC Clinical Electrophysiology entitled Real Time Localization of Ventricular Tachycardia Origin from the Twelve Lead Electrocardiogram. They presented a methodology for rapidly determining in real time the approximate origin of a ventricular tachycardia using the 12 lead during cardiac ablation. In 38 patients they used a variety of methods that involved multiple linear regression learning methods and demonstrated that a patient-specific regression method using at least 10 training set pacing sites in the individual patient can provide a localization accuracy of the exit site for VT of as much as five millimeters. Furthermore, with additional pacing sites that accuracy could improve further. These findings support the continued utility of the standard 12 lead ECG in localizing the exit site of ventricular tachycardia. Furthermore, it points out the importance of considering that the electrocardiogram can be patient-specific. By using multiple pacing sites, this helps an algorithm learn how a patient-specific heart exists in terms of its electrical propagation potential. Further informing based on a 12 lead of a specific VT approximately where it should be exiting from. The next article we will focus on was published by Muser et al. in again, JACC Clinical Electrophysiology entitled Longterm Outcomes of Catheter Ablation of Electrical Storm in Nonischemic Dilated Cardiomyopathy COMpared with Ischemic Cardiomyopathy. The summary point to this article is in a single center, large volume group of patients including about 267 total, the longterm outcomes of VT recurrence or mortality was no different between nonischemic and ischemic patients. This is important to note as most prospective studies and in fact retrospective studies of the role of ventricular tachycardia ablation have focused on ischemic patients where the substraight is relatively predicable. These findings highlight that ablation may provide a reasonably effective therapy irrespective of the cause of the myopathy. Finally, changing gears within the realm of ventricular arrhythmias, we'll focus on a translational article by Motloch et al. in JACC Basic to Translational Science entitled Increased Afterload Following Myocardial Infarction Promotes Conduction-Dependent Arrhythmias That Are Unmasked by Hypokalemia. They studied the role of increased afterload after myocardial infarction in a listing arrhythmias in a porcine infarct model. They demonstrated that in the setting of increased afterload there was increased widespread interstitial fibrosis. Interestingly, pacing -induced arrhythmias induced by a rapid burst pacing were mediated by hypokalemia associated conduction abnormalities rather than repolarization abnormalities. The reason these findings are potentially important lie in the fact that arrhythmias in the early stages after myocardial infarction, especially in a setting of increased afterload, might be considered to be secondary to either repolarization abnormalities or depolarization abnormalities. These findings suggest that in the setting of concomitant hypertension the primary problem really lies in hypokalemia associated conduction abnormalities. Thus, treatments that impair cardiac excitability, for example, even sodium channel blockade, may similarly confer an increased risk of ventricular arrhythmias when in the presence of increased afterload and myocardial infarction. It also calls into question whether interventions such as antitachycardia pacing in patients with hypertension, in other words increased afterload, might be more prone to acceleration of the ventricular arrhythmias than patients who are relatively better managed as far as afterload. Changing gears yet again, we will focus on EP relevant myopathies. [inaudible 00:44:19] et al. published in JACC Clinical Electrophysiology regarding use of the 12 lead electrocardiogram to localize regions of abnormal electron atomic substraight in arrhythmogenic ventricular cardiomyopathy. There were really two major articles in this regard that have been published both in the same month. The other article was published by Andrews et al. in Circulation, Arrhythmia and Electrophysiology entitled Electrical and Structural Substraight of Arrhythmogenic Right Ventricular Cardiomyopathy Determined Using Noninvasive Electrocardiographic Imaging and Late Gadolinium Magnetic Resonance Imaging. The relevance of both of these articles lies in their statements about the potential utility of noninvasive approaches essentially using electrocardiograms to determine the distribution of substraight in arrhythmogenic right ventricular cardiomyopathy. The article by [inaudible 00:45:16] et al. specifically focused on fractionation of the QRS. They showed that patients with evidence of fractionation in the QRS on a 12 lead ECG had more extensive substraight. Furthermore, distribution of fractionation to specific leads such as inferior, anterior or basal superior leads, was 100% specific, but veritably sensitive for identifying substraight as it localizes to specific cardiac regions. In turn, the publication by Andrews et al. in Circulation, Arrhythmia and Electrophysiology reviewed how the addition of multiple leads by a noninvasive electrocardiographic imaging could be used to even more specifically hone in on the relevant substraights. Their further benefit was in the suggestion that repolarization abnormalities in fact co-localized with origination sites for ventricular ectopy in these patients. In combination, these sites highlight the utility of simple, noninvasive methods of electrocardiographic imaging in identifying and defining the arrhythmogenic substraight in the NRVC. The next article we will review was by Sommariva et al. in Nature's Scientific Reports published just this past month entitled MIR 320A as a Potential Novel Circulating Biomarker of Arrhythmogenic Cardiomyopathy. They did micro RNA analysis on 53 healthy controls, 21 idiopathic VT patients and 36 arrhythmogenic cardiomyopathy patients and demonstrated that the circulating micro RNA 320A was significantly higher in arrhythmogenic cardiomyopathy than in either other cohorts. It is recognized that some patients with idiopathic VT, especially right ventricular [inaudible 00:47:09] VT might reflect a cohort that might have what we call "concealed ARVC." The question thus becomes how to define why a patient has a specific manifestation of disease because longterm outcomes, if there is some underlying ARVC might be worse if the ARVC is not recognized and if cure is assumed based on treatment of the initial presenting rhythm. Thus identifying novel ways of defining the presence of a disease even in the absence of obvious structural abnormalities carries benefit in terms of suggestions on longterm followup. Complimentary to the previously discussed article on the role of PKP2 mutations on mediating electrical instability in the heart, the study by [inaudible 00:48:01] et al. does in fact suggest that there might be methods of distinguishing arrhythmogenic cardiomyopathy from whether it be controls or truly idiopathic ventricular tachycardia using a very specific circulating biomarker. On a completely different route, we'll finish our podcast today with a discussion of Bruner et al. published in European Heart Journal entitled Alcohol Consumption, Sinus Tachycardia and Cardiac Arrhythmias at the Munich Oktoberfest: Results from the Munich Beer-Related Electrocardiogram Workup Study or Munich Brew. Bruner et al. studied over 3,000 voluntary participants with a combination of breath alcohol concentration measurements and electrocardiographic recordings via smartphone throughout the Munich Oktoberfest. In addition, they sought to evaluate chronic alcohol consumption effects on arrhythmias in a separate cord of over 4,000 patients from the Cora S4 study. In the study regarding acute alcohol effects, they demonstrated that in line with increasing BAC, there was a greater occurrence of arrhythmias in particular sinus tachycardia in almost a third of patients. What was even further interesting was that respiratory sinus arrhythmia over the course of higher BAC is from baseline was reduced in the setting of alcohol use. Similarly, with chronic alcohol consumption there was an apparent significant association with the occurrence of sinus tachycardia. The reason these findings are important is in their suggestive element that the effects of alcohol intake in terms of whether it be acute or chronic arrhythmogenesis might somewhat lie in their effects on the basal autonomic states. As demonstrated by the reduction in overall sinus arrhythmia. These findings serve to further elucidate mechanisms by which alcohol may mediate arrhythmias in a large real world patient sample. Thank you for joining us on this edition of On The Beat. Tune in next month again for more articles that might be of interest to the general electrophysiologic community all summarized in a single location.
Today's show features Jackie Renfrow and her mother, Wilodene Gist. These women have suffered losses to Long QT Syndrome including both of Jackie’s children. Tune in to hear how the cause of their deaths was finally diagnosed correctly and why they are such staunch advocates willing to talk with our Host, Michael Liben, about how this tragedy has affected their lives.
Today's show features Jackie Renfrow and her mother, Wilodene Gist. These women have suffered losses to Long QT Syndrome including both of Jackie’s children. Tune in to hear how the cause of their deaths was finally diagnosed correctly and why they are such staunch advocates willing to talk with our Host, Michael Liben, about how this tragedy has affected their lives.
Audio Commentary by Dr. Valentin Fuster
Host: Janet Wright, MD Guest: Dan Roden, MD Long QT syndrome can be a silent threat. Although not all patients with congenital long QT syndrome develop symptoms, there is potential for dangerous arrhythmia that can cause sudden cardiac death. Can and should genetic testing guide clinicians in diagnosing and treating this condition? Dr. Dan Roden, professor of medicine and pharmacology and assistant vice-chancellor for personalized medicine at Vanderbilt University School of Medicine, says the concept of personalized medicine goes beyond genetics; it is also about meeting a patient's goals and individual needs. How can genetic testing help physicians decide which medical therapy might be most appropriate for each patient? Dr. Janet Wright hosts.
Host: Janet Wright, MD Guest: Dan Roden, MD Long QT syndrome can be a silent threat. Although not all patients with congenital long QT syndrome develop symptoms, there is potential for dangerous arrhythmia that can cause sudden cardiac death. Can and should genetic testing guide clinicians in diagnosing and treating this condition? Dr. Dan Roden, professor of medicine and pharmacology and assistant vice-chancellor for personalized medicine at Vanderbilt University School of Medicine, says the concept of personalized medicine goes beyond genetics; it is also about meeting a patient's goals and individual needs. How can genetic testing help physicians decide which medical therapy might be most appropriate for each patient? Dr. Janet Wright hosts.
Does a metal implant turn a person into a living lightning-conductor or radio receiver, is eye-size important, why is frost bad for freezers, where did the first organic molecules come from, what happens to sparkling drinks in space and why does a bump on the head make you see stars? This week, join Chris, Sarah and Dave as they pit their wits against the latest crop of your top questions. Plus, why making new computer chips looks set to become easy PC, how stem cells can get to the heart of Long QT Syndrome, feeding the world in 2050 and a new musical device to keep the drummer in the driving... Like this podcast? Please help us by supporting the Naked Scientists
Does a metal implant turn a person into a living lightning-conductor or radio receiver, is eye-size important, why is frost bad for freezers, where did the first organic molecules come from, what happens to sparkling drinks in space and why does a bump on the head make you see stars? This week, join Chris, Sarah and Dave as they pit their wits against the latest crop of your top questions. Plus, why making new computer chips looks set to become easy PC, how stem cells can get to the heart of Long QT Syndrome, feeding the world in 2050 and a new musical device to keep the drummer in the driving seat...
In this NewsFlash, we discover a faster and cheaper way to make bespoke computer chips, find out how stem cells can help understand Long QT Syndrome and explore the problem of feeding a growing global population. Plus, how new live performance beat-tracking software puts the drummer back in the driving seat!
Does a metal implant turn a person into a living lightning-conductor or radio receiver, is eye-size important, why is frost bad for freezers, where did the first organic molecules come from, what happens to sparkling drinks in space and why does a bump on the head make you see stars? This week, join Chris, Sarah and Dave as they pit their wits against the latest crop of your top questions. Plus, why making new computer chips looks set to become easy PC, how stem cells can get to the heart of Long QT Syndrome, feeding the world in 2050 and a new musical device to keep the drummer in the driving... Like this podcast? Please help us by supporting the Naked Scientists
Integrating interactome and genetics data allows researchers to predict adverse drug effects.
On Friday, September 29th, 2-year Colorado Av Steve Konowalchuk (#22) announced that he will retire. This comes after an abnormal pre-training camp EKG showed abnormalities. This was later confirmed to be Long QT Syndrome, a genetic disease. There is also a player on the Detroit Red Wings that had this same disease. If your think back to last year a player had a heart attack while on the bench at a game, Long QT is suspected to be the culprit. Visit our forums http://www.z10.invisionfree.com/AVScast_Forum. The show notes are at http://www.geocities.com/udtmnshownotes (we did upgrade the eye candy-ness of them this morning.) Please give us feedback at feedback@AVScast.com
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