My name is Roberto Mogami. I am an Associate Professor of Radiology at the Rio de Janeiro State University, Brazil. Learning and sharing what I learned is my passion. These are podcasts about medical subjects updated from my professional experiences and literatures references.
Referências1.Wortsman X, Moreno C, Soto R, Arellano J, Pezo C, Wortsman J. Ultrasound in-depth characterization and staging of hidradenitis suppurativa. Dermatol Surg. 2013;39(12):1835-42.2.Anduquia-Garay F, Rodriguez-Gutierrez MM, Poveda-Castillo IT, Valdes-Moreno PL, Agudelo-Rios DA, Benavides-Moreno JS, et al. Hidradenitis suppurativa: Basic considerations for its approach: A narrative review. Ann Med Surg (Lond). 2021;68:102679.3.Elkin K, Daveluy S, Avanaki KM. Hidradenitis suppurativa: Current understanding, diagnostic and surgical challenges, and developments in ultrasound application. Skin Res Technol. 2020;26(1):11-9.4.Wortsman X. Imaging of Hidradenitis Suppurativa. Dermatol Clin. 2016;34(1):59-68.5.Oranges T, Vitali S, Benincasa B, Izzetti R, Lencioni R, Caramella D, et al. Advanced evaluation of hidradenitis suppurativa with ultra-high frequency ultrasound: A promising tool for the diagnosis and monitoring of disease progression. Skin Res Technol. 2020;26(4):513-9.6.Martorell A, Wortsman X, Alfageme F, Roustan G, Arias-Santiago S, Catalano O, et al. Ultrasound Evaluation as a Complementary Test in Hidradenitis Suppurativa: Proposal of a Standarized Report. Dermatol Surg. 2017;43(8):1065-73.7.Wortsman X. Strong validation of ultrasound as an imaging biomarker in hidradenitis suppurativa. Br J Dermatol. 2021;184(4):591-2.8.Grand D, Frew JW, Navrazhina K, Krueger JG. Doppler ultrasound-based noninvasive biomarkers in hidradenitis suppurativa: evaluation of analytical and clinical validity. Br J Dermatol. 2021;184(4):688-96.9.Wortsman X, Castro A, Figueroa A. Color Doppler ultrasound assessment of morphology and types of fistulous tracts in hidradenitis suppurativa (HS). J Am Acad Dermatol. 2016;75(4):760-7.
Referências:1.Modarressi A, Nizet C, Lombardi T. Granulomas and nongranulomatous nodules after filler injection: Different complications require different treatments. J Plast Reconstr Aesthet Surg. 2020;73(11):2010-5.2.Ianhez M, Souza MB, Miot HA. Frequency of Complications of Aesthetic Facial Fillers in Brazil. Plast Reconstr Surg. 2022;149(3):599e-601e.3.Snozzi P, van Loghem JAJ. Complication Management following Rejuvenation Procedures with Hyaluronic Acid Fillers-an Algorithm-based Approach. Plast Reconstr Surg Glob Open. 2018;6(12):e2061.4.Wortsman X, Wortsman J. Sonographic outcomes of cosmetic procedures. AJR Am J Roentgenol. 2011;197(5):W910-8.5.Urdiales-Galvez F, De Cabo-Frances FM, Bove I. Ultrasound patterns of different dermal filler materials used in aesthetics. J Cosmet Dermatol. 2021;20(5):1541-8.6.Wortsman X, Wortsman J, Orlandi C, Cardenas G, Sazunic I, Jemec GB. Ultrasound detection and identification of cosmetic fillers in the skin. J Eur Acad Dermatol Venereol. 2012;26(3):292-301.7.Wortsman X. Identification and Complications of Cosmetic Fillers: Sonography First. J Ultrasound Med. 2015;34(7):1163-72.8.Schelke LW, Cassuto D, Velthuis P, Wortsman X. Nomenclature proposal for the sonographic description and reporting of soft tissue fillers. J Cosmet Dermatol. 2020;19(2):282-8.9.Ghareeb FM, Hassan MSA, El Nahas MA, Salem M. Complicated Facial Fillers: Management Algorithm. Plast Reconstr Surg Glob Open. 2022;10(7):e4445.10.Mlosek RK, Migda B, Skrzypek E, Sloboda K, Migda M. The use of high-frequency ultrasonography for the diagnosis of palpable nodules after the administration of dermal fillers. J Ultrason. 2021;20(83):e248-e53.
Referências1.Presazzi A, Bortolotto C, Zacchino M, Madonia L, Draghi F. Carpal tunnel: Normal anatomy, anatomical variants and ultrasound technique. J Ultrasound. 2011;14(1):40-6.2.Meyer P, Lintingre PF, Pesquer L, Poussange N, Silvestre A, Dallaudiere B. The Median Nerve at the Carpal Tunnel ... and Elsewhere. J Belg Soc Radiol. 2018;102(1):17.3.Henry BM, Zwinczewska H, Roy J, Vikse J, Ramakrishnan PK, Walocha JA, et al. The Prevalence of Anatomical Variations of the Median Nerve in the Carpal Tunnel: A Systematic Review and Meta-Analysis. PLoS One. 2015;10(8):e0136477.
Referências Bibliográficas1.Benlala I, Laurent F, Dournes G. Structural and functional changes in COPD: What we have learned from imaging. Respirology. 2021;26(8):731-41.2.Bodduluri S, Reinhardt JM, Hoffman EA, Newell JD, Jr., Bhatt SP. Recent Advances in Computed Tomography Imaging in Chronic Obstructive Pulmonary Disease. Ann Am Thorac Soc. 2018;15(3):281-9.3.Edwards RM, Kicska G, Schmidt R, Pipavath SN. Imaging of small airways and emphysema. Clin Chest Med. 2015;36(2):335-47, x.4.Hellemons ME, Moor CC, von der Thusen J, Rossius M, Odink A, Thorgersen LH, et al. Desquamative interstitial pneumonia: a systematic review of its features and outcomes. Eur Respir Rev. 2020;29(156).5.Hogg JC, McDonough JE, Suzuki M. Small airway obstruction in COPD: new insights based on micro-CT imaging and MRI imaging. Chest. 2013;143(5):1436-43.6.Kauczor HU, Wielputz MO, Jobst BJ, Weinheimer O, Gompelmann D, Herth FJF, et al. Computed Tomography Imaging for Novel Therapies of Chronic Obstructive Pulmonary Disease. J Thorac Imaging. 2019;34(3):202-13.7.Lynch DA. Progress in Imaging COPD, 2004 - 2014. Chronic Obstr Pulm Dis. 2014;1(1):73-82.8.Martini K, Frauenfelder T. Emphysema and lung volume reduction: the role of radiology. J Thorac Dis. 2018;10(Suppl 23):S2719-S31.9.Martini K, Frauenfelder T. Advances in imaging for lung emphysema. Ann Transl Med. 2020;8(21):1467.10.Ostridge K, Williams NP, Kim V, Harden S, Bourne S, Clarke SC, et al. Relationship of CT-quantified emphysema, small airways disease and bronchial wall dimensions with physiological, inflammatory and infective measures in COPD. Respir Res. 2018;19(1):31.11.Pipavath SJ, Lynch DA, Cool C, Brown KK, Newell JD. Radiologic and pathologic features of bronchiolitis. AJR Am J Roentgenol. 2005;185(2):354-63.12.Sheikh K, Coxson HO, Parraga G. This is what COPD looks like. Respirology. 2016;21(2):224-36.13.Stern EJ, Frank MS. CT of the lung in patients with pulmonary emphysema: diagnosis, quantification, and correlation with pathologic and physiologic findings. AJR Am J Roentgenol. 1994;162(4):791-8.14.Takahashi M, Fukuoka J, Nitta N, Takazakura R, Nagatani Y, Murakami Y, et al. Imaging of pulmonary emphysema: a pictorial review. Int J Chron Obstruct Pulmon Dis. 2008;3(2):193-204.15.Tanabe N, Vasilescu DM, Hague CJ, Ikezoe K, Murphy DT, Kirby M, et al. Pathological Comparisons of Paraseptal and Centrilobular Emphysema in Chronic Obstructive Pulmonary Disease. Am J Respir Crit Care Med. 2020;202(6):803-11.16.Thiboutot J, Yuan W, Park HC, Lerner AD, Mitzner W, Yarmus LB, et al. Current Advances in COPD Imaging. Acad Radiol. 2019;26(3):335-43.17.Winningham PJ, Martinez-Jimenez S, Rosado-de-Christenson ML, Betancourt SL, Restrepo CS, Eraso A. Bronchiolitis: A Practical Approach for the General Radiologist-Erratum. Radiographics. 2017;37(5):1607.
Referências Bibliográficas1.Benlala I, Laurent F, Dournes G. Structural and functional changes in COPD: What we have learned from imaging. Respirology. 2021;26(8):731-41.2.Bodduluri S, Reinhardt JM, Hoffman EA, Newell JD, Jr., Bhatt SP. Recent Advances in Computed Tomography Imaging in Chronic Obstructive Pulmonary Disease. Ann Am Thorac Soc. 2018;15(3):281-9.3.Edwards RM, Kicska G, Schmidt R, Pipavath SN. Imaging of small airways and emphysema. Clin Chest Med. 2015;36(2):335-47, x.4.Hellemons ME, Moor CC, von der Thusen J, Rossius M, Odink A, Thorgersen LH, et al. Desquamative interstitial pneumonia: a systematic review of its features and outcomes. Eur Respir Rev. 2020;29(156).5.Hogg JC, McDonough JE, Suzuki M. Small airway obstruction in COPD: new insights based on micro-CT imaging and MRI imaging. Chest. 2013;143(5):1436-43.6.Kauczor HU, Wielputz MO, Jobst BJ, Weinheimer O, Gompelmann D, Herth FJF, et al. Computed Tomography Imaging for Novel Therapies of Chronic Obstructive Pulmonary Disease. J Thorac Imaging. 2019;34(3):202-13.7.Lynch DA. Progress in Imaging COPD, 2004 - 2014. Chronic Obstr Pulm Dis. 2014;1(1):73-82.8.Martini K, Frauenfelder T. Emphysema and lung volume reduction: the role of radiology. J Thorac Dis. 2018;10(Suppl 23):S2719-S31.9.Martini K, Frauenfelder T. Advances in imaging for lung emphysema. Ann Transl Med. 2020;8(21):1467.10.Ostridge K, Williams NP, Kim V, Harden S, Bourne S, Clarke SC, et al. Relationship of CT-quantified emphysema, small airways disease and bronchial wall dimensions with physiological, inflammatory and infective measures in COPD. Respir Res. 2018;19(1):31.11.Pipavath SJ, Lynch DA, Cool C, Brown KK, Newell JD. Radiologic and pathologic features of bronchiolitis. AJR Am J Roentgenol. 2005;185(2):354-63.12.Sheikh K, Coxson HO, Parraga G. This is what COPD looks like. Respirology. 2016;21(2):224-36.13.Stern EJ, Frank MS. CT of the lung in patients with pulmonary emphysema: diagnosis, quantification, and correlation with pathologic and physiologic findings. AJR Am J Roentgenol. 1994;162(4):791-8.14.Takahashi M, Fukuoka J, Nitta N, Takazakura R, Nagatani Y, Murakami Y, et al. Imaging of pulmonary emphysema: a pictorial review. Int J Chron Obstruct Pulmon Dis. 2008;3(2):193-204.15.Tanabe N, Vasilescu DM, Hague CJ, Ikezoe K, Murphy DT, Kirby M, et al. Pathological Comparisons of Paraseptal and Centrilobular Emphysema in Chronic Obstructive Pulmonary Disease. Am J Respir Crit Care Med. 2020;202(6):803-11.16.Thiboutot J, Yuan W, Park HC, Lerner AD, Mitzner W, Yarmus LB, et al. Current Advances in COPD Imaging. Acad Radiol. 2019;26(3):335-43.17.Winningham PJ, Martinez-Jimenez S, Rosado-de-Christenson ML, Betancourt SL, Restrepo CS, Eraso A. Bronchiolitis: A Practical Approach for the General Radiologist-Erratum. Radiographics. 2017;37(5):1607.
Referências Bibliográficas1- Abdel Razek AA, Soliman NY, Elkhamary S, Alsharaway MK, Tawfik A. Role of diffusion-weighted MR imaging in cervical lymphadenopathy. Eur Radiol. 2006;16 (7): 1468-77. 2- Ahuja A, Ying M. Sonographic evaluation of cervical lymphadenopathy: is power Doppler sonography routinely indicated? Ultrasound Med Biol. 2003; 29 (3): 353-9.3- Chong V. Cervical lymphadenopathy: what radiologists need to know. cancer imaging. 2004; 4 (2): 116-20.4- Dudea SM, Lenghel M, Botar-Jid C, Vasilescu D, Duma M. Ultrasonography of superficial lymph nodes: benign vs. malignant. Med Ultrason. 2012; 14 (4): 294-306.5- Gonçalves FG, Ovalle JP, Grieb DFJ, Torres CI, Chankwosky J, DelCarpio-O'Donovan R. Diffusion in the head and neck: an assessment beyond the anatomy. Radiol Bras. 2011; 44 (5): 308–314.6- Gupta A, Rahman K, Shahid M, Kumar A, Qaseem SM, Hassan SA, et al. Sonographic assessment of cervical lymphadenopathy: role of high-resolution and color Doppler imaging. Head Neck. 2011; 33 (3): 297-302.7- Hoang JK, Vanka J, Ludwig BJ, Glastonbury CM. Evaluation of cervical lymph nodes in head and neck cancer with CT and MRI: tips, traps, and a systematic approach. AJR. 2013; 200 (1): W17-25.8- Ludwig BJ, Wang J, Nadgir RN, Saito N, Castro-Aragon I, Sakai O. Imaging of cervical lymphadenopathy in children and young adults. AJR. 2012; 199 (5): 1105-13.9- Mouawad F, Rysman B, Russ G, Benoudiba F, Garcia G, Abgral R, Zerdoud S, et al. Cystic form of cervical lymphadenopathy. Guidelines of the French Society of Otorhinolaryngology - Head and Neck Surgery (SFORL). Part 1: Diagnostic procedures for lymphadenopathy in case of cervical mass with cystic aspect. Eur Ann Otorhinolaryngol Head Neck Dis. 2019; 136 (6): 489-496.10- Rodriguez-Takeuchi SR, Renjifo ME, Medina FJ. RadioGraphics 2019; 39:2023–203711- Testa ML, Chojniak R, Sene LS, Damascena AS. Diffusion-weighted magnetic resonance imaging: biomarker for treatment response in oncology. Radiol Bras. 2013; 46 (3): 178–180.12- Ying M, Ahuja A, Brook F. Accuracy of sonographic vascular features in differentiating different causes of cervical lymphadenopathy. Ultrasound Med Biol. 2004; 30 (4): 441-7.13- Ying M, Bhatia KS, Lee YP, Yuen HY, Ahuja AT. Review of ultrasonography of malignant neck nodes: greyscale, Doppler, contrast enhancement and elastography. Cancer Imaging. 2014;13 (4): 658-669.
Referências1. Acosta-Felquer ML, Ruta S, Rosa J, Marin J, Ferreyra-Garrot L, Galimberti ML, et al. Ultrasound entheseal abnormalities at the distal interphalangeal joints and clinical nail involvement in patients with psoriasis and psoriatic arthritis, supporting the nail-enthesitis theory. Semin Arthritis Rheum. 2017;47(3):338-42.2. Acquacalda E, Albert C, Montaudie H, Fontas E, Danre A, Roux CH, et al. Ultrasound study of entheses in psoriasis patients with or without musculoskeletal symptoms: A prospective study. Joint Bone Spine. 2015;82(4):267-71.3. Acquitter M, Misery L, Saraux A, Bressollette L, Jousse-Joulin S. Detection of subclinical ultrasound enthesopathy and nail disease in patients at risk of psoriatic arthritis. Joint Bone Spine. 2017;84(6):703-7.4. Aydin SZ, Castillo-Gallego C, Ash ZR, Marzo-Ortega H, Emery P, Wakefield RJ, et al. Ultrasonographic assessment of nail in psoriatic disease shows a link between onychopathy and distal interphalangeal joint extensor tendon enthesopathy. Dermatology. 2012;225(3):231-5.5. Bagel J, Schwartzman S. Enthesitis and Dactylitis in Psoriatic Disease: A Guide for Dermatologists. Am J Clin Dermatol. 2018;19(6):839-52.6. Cunha JS, Qureshi AA, Reginato AM. Nail Enthesis Ultrasound in Psoriasis and Psoriatic Arthritis: A Report from the 2016 GRAPPA Annual Meeting. J Rheumatol. 2017;44(5):688-90.7. Eder L, Aydin SZ. Imaging in Psoriatic Arthritis-Insights About Pathogenesis of the Disease. Curr Rheumatol Rep. 2018;20(12):77.8. Gutierrez M, Wortsman X, Filippucci E, De Angelis R, Filosa G, Grassi W. High-frequency sonography in the evaluation of psoriasis: nail and skin involvement. J Ultrasound Med. 2009;28(11):1569-74.9. Gutierrez-Manjarrez J, Gutierrez M, Bertolazzi C, Afaro-Rodriguez A, Pineda C. Ultrasound as a useful tool to integrate the clinical assessment of nail involvement in psoriatic arthritis. Reumatologia. 2018;56(1):42-4.10. Idolazzi L, Zabotti A, Fassio A, Errichetti E, Benini C, Vantaggiato E, et al. The ultrasonographic study of the nail reveals differences in patients affected by inflammatory and degenerative conditions. Clin Rheumatol. 2019;38(3):913-20.11. Krajewska-Wlodarczyk M, Owczarczyk-Saczonek A, Placek W, Wojtkiewicz M, Wiktorowicz A, Wojtkiewicz J. Distal interphalangeal joint extensor tendon enthesopathy in patients with nail psoriasis. Sci Rep. 2019;9(1):3628.12. McGonagle D, Tan AL, Benjamin M. The nail as a musculoskeletal appendage--implications for an improved understanding of the link between psoriasis and arthritis. Dermatology. 2009;218(2):97-102.13. McGonagle D, Tan AL. The enthesis in psoriatic arthritis. Clin Exp Rheumatol. 2015;33(5 Suppl 93):S36-9.14. Mendonca JA, Aydin SZ, D'Agostino MA. The use of ultrasonography in the diagnosis of nail disease among patients with psoriasis and psoriatic arthritis: a systematic review. Adv Rheumatol. 2019;59(1):41.15. Mondal S, Dutta S, Lahiri D, Sinha D, Sircar G, Mandal AK, et al. Assessment of nail unit structures by ultrasound in patients with psoriatic arthritis and their correlations with disease activity indices: a case-control study. Rheumatol Int. 2018;38(11):2087-93.16. Naredo E, Janta I, Baniandres-Rodriguez O, Valor L, Hinojosa M, Bello N, et al. To what extend is nail ultrasound discriminative between psoriasis, psoriatic arthritis and healthy subjects? Rheumatol Int. 2019;39(4):697-705.17. Tan AL, Benjamin M, Toumi H, Grainger AJ, Tanner SF, Emery P, et al. The relationship between the extensor tendon enthesis and the nail in distal interphalangeal joint disease in psoriatic arthritis--a high-resolution MRI and histological study. Rheumatology (Oxford). 2007;46(2):253-6.18. Zabotti A, Idolazzi L, Batticciotto A, De Lucia O, Scire CA, Tinazzi I, et al. Enthesitis of the hands in psoriatic arthritis: an ultrasonographic perspective. Med Ultrason. 2017;19(4):438-43.
Complementação ao hands onde ultrassonografia
Edição especial para a Jornada Acadêmica da Faculdade de Ciências Médicas da Uerj
Edição especial para a Jornada Acadêmica da Faculdade de Ciências Médicas da Uerj
Edição especial para a Jornada Acadêmica da Faculdade de Ciências Médicas da Uerj
Edição especial de podcasts para a Jornada Acadêmica da Faculdade de Ciências Médicas da Uerj
Melville AR, Kearsley-Fleet L, Buch MH, Hyrich KL. Understanding Refractory Rheumatoid Arthritis: Implications for a Therapeutic Approach. Drugs. 2020;80(9):849-57.Buch MH, Eyre S, McGonagle D. Persistent inflammatory and non-inflammatory mechanisms in refractory rheumatoid arthritis. Nat Rev Rheumatol. 2021;17(1):17-33.Buch MH. Defining refractory rheumatoid arthritis. Ann Rheum Dis. 2018;77(7):966-9.
PODCAST DA AULA MINISTRADA NA JORNADA DE REUMATOLOGIA DO RIO DE JANEIRO 2021
Referências1.Kanmaniraja D, Le J, Hsu K, Lee JS, McClelland A, Slasky SE, et al. Review of COVID-19, part 2: Musculoskeletal and neuroimaging manifestations including vascular involvement of the aorta and extremities. Clin Imaging. 2021;79:300-13.2.Crivelenti L, Frazao MMN, Maia MPM, Gomes FHR, de Carvalho LM. Chronic arthritis related to SARS-CoV-2 infection in a pediatric patient: A case report. Braz J Infect Dis. 2021;25(3):101585.3.Disser NP, De Micheli AJ, Schonk MM, Konnaris MA, Piacentini AN, Edon DL, et al. Musculoskeletal Consequences of COVID-19. J Bone Joint Surg Am. 2020;102(14):1197-204.4.Ramani SL, Samet J, Franz CK, Hsieh C, Nguyen CV, Horbinski C, et al. Musculoskeletal involvement of COVID-19: review of imaging. Skeletal Radiol. 2021;50(9):1763-73.5.Revzin MV, Raza S, Srivastava NC, Warshawsky R, D'Agostino C, Malhotra A, et al. Multisystem Imaging Manifestations of COVID-19, Part 2: From Cardiac Complications to Pediatric Manifestations. Radiographics. 2020;40(7):1866-92.6.Patel Z, Franz CK, Bharat A, Walter JM, Wolfe LF, Koralnik IJ, et al. Diaphragm and Phrenic Nerve Ultrasound in COVID-19 Patients and Beyond: Imaging Technique, Findings, and Clinical Applications. J Ultrasound Med. 2021.7.Taleja H. Spontaneous Hematomas in COVID-19 Patients on Low-Molecular-Weight Heparin. Dubai Med J. 2021.8.Conway R, Konig MF, Graef ER, Webb K, Yazdany J, Kim AHJ. Inflammatory arthritis in patients with COVID-19. Transl Res. 2021;232:49-59.9.Kobayashi S, Taniguchi Y, Kida I, Tamura N. SARS-CoV2-triggered acute arthritis: Viral arthritis rather than reactive arthritis. J Med Virol. 2021.10.Colatutto D, Sonaglia A, Zabotti A, Cereser L, Girometti R, Quartuccio L. Post-COVID-19 Arthritis and Sacroiliitis: Natural History with Longitudinal Magnetic Resonance Imaging Study in Two Cases and Review of the Literature. Viruses. 2021;13(8).11.Hoong CWS, Amin M, Tan TC, Lee JE. Viral arthralgia a new manifestation of COVID-19 infection? A cohort study of COVID-19-associated musculoskeletal symptoms. Int J Infect Dis. 2021;104:363-9.12.Kocyigit BF, Akyol A. Reactive arthritis after COVID-19: a case-based review. Rheumatol Int. 2021;41(11):2031-9.13.Mukarram MS, Ishaq Ghauri M, Sethar S, Afsar N, Riaz A, Ishaq K. COVID-19: An Emerging Culprit of Inflammatory Arthritis. Case Rep Rheumatol. 2021;2021:6610340.14.Zacharias H, Dubey S, Koduri G, D'Cruz D. Rheumatological complications of Covid 19. Autoimmun Rev. 2021;20(9):102883.15.Ciaffi J, Mancarella L, Borlandelli E, Facchini G, Meliconi R, Ursini F. May polyenthesitis follow COVID-19? Joint Bone Spine. 2021;88(3):105158.16.Zeidler H, Hudson AP. Reactive Arthritis Update: Spotlight on New and Rare Infectious Agents Implicated as Pathogens. Curr Rheumatol Rep. 2021;23(7):53.17.Bureau BL, Obeidat A, Dhariwal MS, Jha P. Peripheral Neuropathy as a Complication of SARS-Cov-2. Cureus. 2020;12(11):e11452.18.Soliman SB, Klochko CL, Dhillon MK, Vandermissen NR, van Holsbeeck MT. Peripheral Polyneuropathy Associated with COVID-19 in Two Patients: A Musculoskeletal Ultrasound Case Report. J Med Ultrasound. 2020;28(4):249-52.19.Finsterer J. Comment on Peripheral Polyneuropathy Associated with COVID-19 in Two Patients: A Musculoskeletal Ultrasound Case Report. J Med Ultrasound. 2021;29(2):134-5.20.Soliman SB. Reply to Comment on Peripheral Polyneuropathy Associated with COVID-19 in Two Patients: A Musculoskeletal Ultrasound Case Report. J Med Ultrasound. 2021;29(2):136-7.21.Cantarelli Rodrigues T, Hidalgo PF, Skaf AY, Serfaty A. Subacromial-subdeltoid bursitis following COVID-19 vaccination: a case of shoulder injury related to vaccine administration (SIRVA). Skeletal Radiol. 2021;50(11):2293-7.
REFERÊNCIAS1.Pontone G, Scafuri S, Mancini ME, Agalbato C, Guglielmo M, Baggiano A, et al. Role of computed tomography in COVID-19. J Cardiovasc Comput Tomogr. 2021;15(1):27-36.2.Cereser L, Da Re J, Zuiani C, Girometti R. Chest high-resolution computed tomography is associated to short-time progression to severe disease in patients with COVID-19 pneumonia. Clin Imaging. 2021;70:61-6.3.Hochhegger B, Mandelli NS, Stuker G, Meirelles GSP, Zanon M, Mohammed TL, et al. Coronavirus Disease 2019 (COVID-19) Pneumonia Presentations in Chest Computed Tomography: A Pictorial Review. Curr Probl Diagn Radiol. 2021;50(3):436-42.4.Besutti G, Ottone M, Fasano T, Pattacini P, Iotti V, Spaggiari L, et al. The value of computed tomography in assessing the risk of death in COVID-19 patients presenting to the emergency room. Eur Radiol. 2021.5.Mogami R, Lopes AJ, Araujo Filho RC, de Almeida FCS, Messeder A, Koifman ACB, et al. Chest computed tomography in COVID-19 pneumonia: a retrospective study of 155 patients at a university hospital in Rio de Janeiro, Brazil. Radiol Bras. 2021;54(1):1-8.6.Cau R, Falaschi Z, Pasche A, Danna P, Arioli R, Arru CD, et al. CT findings of COVID-19 pneumonia in ICU-patients. J Public Health Res. 2021.7.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021;299(3):E262-E79.8.Pourhoseingholi MA, Jafari R, Jafari NJ, Rahimi-Bashar F, Nourbakhsh M, Vahedian-Azimi A, et al. Predicting 1-year post-COVID-19 mortality based on chest computed tomography scan. J Med Virol. 2021;93(10):5694-6.9.Kato S, Ishiwata Y, Aoki R, Iwasawa T, Hagiwara E, Ogura T, et al. Imaging of COVID-19: An update of current evidences. Diagn Interv Imaging. 2021;102(9):493-500.10.Ozer H, Kilincer A, Uysal E, Yormaz B, Cebeci H, Durmaz MS, et al. Diagnostic performance of Radiological Society of North America structured reporting language for chest computed tomography findings in patients with COVID-19. Jpn J Radiol. 2021;39(9):877-88.11.Ramanan RV, Joshi AR, Venkataramanan A, Nambi SP, Badhe R. Incidental chest computed tomography findings in asymptomatic Covid-19 patients. A multicentre Indian perspective. Indian J Radiol Imaging. 2021;31(Suppl 1):S45-S52.12.Axiaq A, Almohtadi A, Massias SA, Ngemoh D, Harky A. The role of computed tomography scan in the diagnosis of COVID-19 pneumonia. Curr Opin Pulm Med. 2021;27(3):163-8.13.Ishfaq A, Yousaf Farooq SM, Goraya A, Yousaf M, Gilani SA, Kiran A, et al. Role of High Resolution Computed Tomography chest in the diagnosis and evaluation of COVID -19 patients -A systematic review and meta-analysis. Eur J Radiol Open. 2021;8:100350.14.Razek A, Fouda N, Fahmy D, Tanatawy MS, Sultan A, Bilal M, et al. Computed tomography of the chest in patients with COVID-19: what do radiologists want to know? Pol J Radiol. 2021;86:e122-e35.15.Revel MP, Boussouar S, de Margerie-Mellon C, Saab I, Lapotre T, Mompoint D, et al. Study of Thoracic CT in COVID-19: The STOIC Project. Radiology. 2021;301(1):E361-E70.16.Au-Yong I, Higashi Y, Giannotti E, Fogarty A, Morling JR, Grainge M, et al. Chest Radiograph Scoring Alone or Combined with Other Risk Scores for Predicting Outcomes in COVID-19. Radiology. 2021:210986.17.Little BP. Disease Severity Scoring for COVID-19: A Welcome (Semi)Quantitative Role for Chest Radiography. Radiology. 2021:212212.18.Prokop M, van Everdingen W, van Rees Vellinga T, Quarles van Ufford H, Stoger L, Beenen L, et al. CO-RADS: A Categorical CT Assessment Scheme for Patients Suspected of Having COVID-19-Definition and Evaluation. Radiology. 2020;296(2):E97-E104.19.Ozel M, Aslan A, Arac S. Use of the COVID-19 Reporting and Data System (CO-RADS) classification and chest computed tomography involvement score (CT-IS) in COVID-19 pneumonia. Radiol Med. 2021;126(5):679-87.20.Byrne D, Neill SBO, Muller NL, Muller CIS, Walsh JP, Jalal S, et al. RSNA Expert Consensus Statement on Reporting Chest CT Findings Related to COVID-19: Interobserver Agreement Between Chest Radiologists. Can Assoc Radiol J. 2021;72(1):159-66.21.Fonseca E, Loureiro BMC, Strabelli DG, Farias LPG, Garcia JVR, Gama VAA, et al. Evaluation of the RSNA and CORADS classifications for COVID-19 on chest computed tomography in the Brazilian population. Clinics (Sao Paulo). 2021;76:e2476.22.Barisione E, Grillo F, Ball L, Bianchi R, Grosso M, Morbini P, et al. Fibrotic progression and radiologic correlation in matched lung samples from COVID-19 post-mortems. Virchows Arch. 2021;478(3):471-85.23.Kianzad A, Meijboom LJ, Nossent EJ, Roos E, Schurink B, Bonta PI, et al. COVID-19: Histopathological correlates of imaging patterns on chest computed tomography. Respirology. 2021;26(9):869-77.24.Aesif SW, Bribriesco AC, Yadav R, Nugent SL, Zubkus D, Tan CD, et al. Pulmonary Pathology of COVID-19 Following 8 Weeks to 4 Months of Severe Disease: A Report of Three Cases, Including One With Bilateral Lung Transplantation. Am J Clin Pathol. 2021;155(4):506-14.25.De Cobelli F, Palumbo D, Ciceri F, Landoni G, Ruggeri A, Rovere-Querini P, et al. Pulmonary Vascular Thrombosis in COVID-19 Pneumonia. J Cardiothorac Vasc Anesth. 2021.26.Vlachou M, Drebes A, Candilio L, Weeraman D, Mir N, Murch N, et al. Pulmonary thrombosis in Covid-19: before, during and after hospital admission. J Thromb Thrombolysis. 2021;51(4):978-84.27.Caruso D, Guido G, Zerunian M, Polidori T, Lucertini E, Pucciarelli F, et al. Postacute Sequelae of COVID-19 Pneumonia: 6-month Chest CT Follow-up. Radiology. 2021:210834.28.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.29.Solomon JJ, Heyman B, Ko JP, Condos R, Lynch DA. CT of Post-Acute Lung Complications of COVID-19. Radiology. 2021:211396.30.Wells AU, Devaraj A, Desai SR. Interstitial Lung Disease after COVID-19 Infection: A Catalog of Uncertainties. Radiology. 2021;299(1):E216-E8.31.Han X, Fan Y, Alwalid O, Zhang X, Jia X, Zheng Y, et al. Fibrotic Interstitial Lung Abnormalities at 1-year Follow-up CT after Severe COVID-19. Radiology. 2021:210972.32.Lindahl A, Reijula J, Malmberg LP, Aro M, Vasankari T, Makela MJ. Small airway function in Finnish COVID-19 survivors. Respir Res. 2021;22(1):237.33.Small Airways Disease is a Post-Acute Sequelae of SARS-CoV-2 Infection [Internet]. 2021.34.Lopes AJ, Mafort TT, da Cal MS, Monnerat LB, Litrento PF, Ramos I, et al. Impulse Oscillometry Findings and Their Associations With Lung Ultrasound Signs in COVID-19 Survivors. Respir Care. 2021.35.Wells AU, Devaraj A. Residual Lung Disease at 6-month Follow-up CT after COVID-19: Clinical Significance Is a Key Issue. Radiology. 2021:211284.
REFERÊNCIAS1.Pontone G, Scafuri S, Mancini ME, Agalbato C, Guglielmo M, Baggiano A, et al. Role of computed tomography in COVID-19. J Cardiovasc Comput Tomogr. 2021;15(1):27-36.2.Cereser L, Da Re J, Zuiani C, Girometti R. Chest high-resolution computed tomography is associated to short-time progression to severe disease in patients with COVID-19 pneumonia. Clin Imaging. 2021;70:61-6.3.Hochhegger B, Mandelli NS, Stuker G, Meirelles GSP, Zanon M, Mohammed TL, et al. Coronavirus Disease 2019 (COVID-19) Pneumonia Presentations in Chest Computed Tomography: A Pictorial Review. Curr Probl Diagn Radiol. 2021;50(3):436-42.4.Besutti G, Ottone M, Fasano T, Pattacini P, Iotti V, Spaggiari L, et al. The value of computed tomography in assessing the risk of death in COVID-19 patients presenting to the emergency room. Eur Radiol. 2021.5.Mogami R, Lopes AJ, Araujo Filho RC, de Almeida FCS, Messeder A, Koifman ACB, et al. Chest computed tomography in COVID-19 pneumonia: a retrospective study of 155 patients at a university hospital in Rio de Janeiro, Brazil. Radiol Bras. 2021;54(1):1-8.6.Cau R, Falaschi Z, Pasche A, Danna P, Arioli R, Arru CD, et al. CT findings of COVID-19 pneumonia in ICU-patients. J Public Health Res. 2021.7.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021;299(3):E262-E79.8.Pourhoseingholi MA, Jafari R, Jafari NJ, Rahimi-Bashar F, Nourbakhsh M, Vahedian-Azimi A, et al. Predicting 1-year post-COVID-19 mortality based on chest computed tomography scan. J Med Virol. 2021;93(10):5694-6.9.Kato S, Ishiwata Y, Aoki R, Iwasawa T, Hagiwara E, Ogura T, et al. Imaging of COVID-19: An update of current evidences. Diagn Interv Imaging. 2021;102(9):493-500.10.Ozer H, Kilincer A, Uysal E, Yormaz B, Cebeci H, Durmaz MS, et al. Diagnostic performance of Radiological Society of North America structured reporting language for chest computed tomography findings in patients with COVID-19. Jpn J Radiol. 2021;39(9):877-88.11.Ramanan RV, Joshi AR, Venkataramanan A, Nambi SP, Badhe R. Incidental chest computed tomography findings in asymptomatic Covid-19 patients. A multicentre Indian perspective. Indian J Radiol Imaging. 2021;31(Suppl 1):S45-S52.12.Axiaq A, Almohtadi A, Massias SA, Ngemoh D, Harky A. The role of computed tomography scan in the diagnosis of COVID-19 pneumonia. Curr Opin Pulm Med. 2021;27(3):163-8.13.Ishfaq A, Yousaf Farooq SM, Goraya A, Yousaf M, Gilani SA, Kiran A, et al. Role of High Resolution Computed Tomography chest in the diagnosis and evaluation of COVID -19 patients -A systematic review and meta-analysis. Eur J Radiol Open. 2021;8:100350.14.Razek A, Fouda N, Fahmy D, Tanatawy MS, Sultan A, Bilal M, et al. Computed tomography of the chest in patients with COVID-19: what do radiologists want to know? Pol J Radiol. 2021;86:e122-e35.15.Revel MP, Boussouar S, de Margerie-Mellon C, Saab I, Lapotre T, Mompoint D, et al. Study of Thoracic CT in COVID-19: The STOIC Project. Radiology. 2021;301(1):E361-E70.16.Au-Yong I, Higashi Y, Giannotti E, Fogarty A, Morling JR, Grainge M, et al. Chest Radiograph Scoring Alone or Combined with Other Risk Scores for Predicting Outcomes in COVID-19. Radiology. 2021:210986.17.Little BP. Disease Severity Scoring for COVID-19: A Welcome (Semi)Quantitative Role for Chest Radiography. Radiology. 2021:212212.18.Prokop M, van Everdingen W, van Rees Vellinga T, Quarles van Ufford H, Stoger L, Beenen L, et al. CO-RADS: A Categorical CT Assessment Scheme for Patients Suspected of Having COVID-19-Definition and Evaluation. Radiology. 2020;296(2):E97-E104.19.Ozel M, Aslan A, Arac S. Use of the COVID-19 Reporting and Data System (CO-RADS) classification and chest computed tomography involvement score (CT-IS) in COVID-19 pneumonia. Radiol Med. 2021;126(5):679-87.20.Byrne D, Neill SBO, Muller NL, Muller CIS, Walsh JP, Jalal S, et al. RSNA Expert Consensus Statement on Reporting Chest CT Findings Related to COVID-19: Interobserver Agreement Between Chest Radiologists. Can Assoc Radiol J. 2021;72(1):159-66.21.Fonseca E, Loureiro BMC, Strabelli DG, Farias LPG, Garcia JVR, Gama VAA, et al. Evaluation of the RSNA and CORADS classifications for COVID-19 on chest computed tomography in the Brazilian population. Clinics (Sao Paulo). 2021;76:e2476.22.Barisione E, Grillo F, Ball L, Bianchi R, Grosso M, Morbini P, et al. Fibrotic progression and radiologic correlation in matched lung samples from COVID-19 post-mortems. Virchows Arch. 2021;478(3):471-85.23.Kianzad A, Meijboom LJ, Nossent EJ, Roos E, Schurink B, Bonta PI, et al. COVID-19: Histopathological correlates of imaging patterns on chest computed tomography. Respirology. 2021;26(9):869-77.24.Aesif SW, Bribriesco AC, Yadav R, Nugent SL, Zubkus D, Tan CD, et al. Pulmonary Pathology of COVID-19 Following 8 Weeks to 4 Months of Severe Disease: A Report of Three Cases, Including One With Bilateral Lung Transplantation. Am J Clin Pathol. 2021;155(4):506-14.25.De Cobelli F, Palumbo D, Ciceri F, Landoni G, Ruggeri A, Rovere-Querini P, et al. Pulmonary Vascular Thrombosis in COVID-19 Pneumonia. J Cardiothorac Vasc Anesth. 2021.26.Vlachou M, Drebes A, Candilio L, Weeraman D, Mir N, Murch N, et al. Pulmonary thrombosis in Covid-19: before, during and after hospital admission. J Thromb Thrombolysis. 2021;51(4):978-84.27.Caruso D, Guido G, Zerunian M, Polidori T, Lucertini E, Pucciarelli F, et al. Postacute Sequelae of COVID-19 Pneumonia: 6-month Chest CT Follow-up. Radiology. 2021:210834.28.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.29.Solomon JJ, Heyman B, Ko JP, Condos R, Lynch DA. CT of Post-Acute Lung Complications of COVID-19. Radiology. 2021:211396.30.Wells AU, Devaraj A, Desai SR. Interstitial Lung Disease after COVID-19 Infection: A Catalog of Uncertainties. Radiology. 2021;299(1):E216-E8.31.Han X, Fan Y, Alwalid O, Zhang X, Jia X, Zheng Y, et al. Fibrotic Interstitial Lung Abnormalities at 1-year Follow-up CT after Severe COVID-19. Radiology. 2021:210972.32.Lindahl A, Reijula J, Malmberg LP, Aro M, Vasankari T, Makela MJ. Small airway function in Finnish COVID-19 survivors. Respir Res. 2021;22(1):237.33.Small Airways Disease is a Post-Acute Sequelae of SARS-CoV-2 Infection [Internet]. 2021.34.Lopes AJ, Mafort TT, da Cal MS, Monnerat LB, Litrento PF, Ramos I, et al. Impulse Oscillometry Findings and Their Associations With Lung Ultrasound Signs in COVID-19 Survivors. Respir Care. 2021.35.Wells AU, Devaraj A. Residual Lung Disease at 6-month Follow-up CT after COVID-19: Clinical Significance Is a Key Issue. Radiology. 2021:211284.
REFERÊNCIAS1.Pontone G, Scafuri S, Mancini ME, Agalbato C, Guglielmo M, Baggiano A, et al. Role of computed tomography in COVID-19. J Cardiovasc Comput Tomogr. 2021;15(1):27-36.2.Cereser L, Da Re J, Zuiani C, Girometti R. Chest high-resolution computed tomography is associated to short-time progression to severe disease in patients with COVID-19 pneumonia. Clin Imaging. 2021;70:61-6.3.Hochhegger B, Mandelli NS, Stuker G, Meirelles GSP, Zanon M, Mohammed TL, et al. Coronavirus Disease 2019 (COVID-19) Pneumonia Presentations in Chest Computed Tomography: A Pictorial Review. Curr Probl Diagn Radiol. 2021;50(3):436-42.4.Besutti G, Ottone M, Fasano T, Pattacini P, Iotti V, Spaggiari L, et al. The value of computed tomography in assessing the risk of death in COVID-19 patients presenting to the emergency room. Eur Radiol. 2021.5.Mogami R, Lopes AJ, Araujo Filho RC, de Almeida FCS, Messeder A, Koifman ACB, et al. Chest computed tomography in COVID-19 pneumonia: a retrospective study of 155 patients at a university hospital in Rio de Janeiro, Brazil. Radiol Bras. 2021;54(1):1-8.6.Cau R, Falaschi Z, Pasche A, Danna P, Arioli R, Arru CD, et al. CT findings of COVID-19 pneumonia in ICU-patients. J Public Health Res. 2021.7.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021;299(3):E262-E79.8.Pourhoseingholi MA, Jafari R, Jafari NJ, Rahimi-Bashar F, Nourbakhsh M, Vahedian-Azimi A, et al. Predicting 1-year post-COVID-19 mortality based on chest computed tomography scan. J Med Virol. 2021;93(10):5694-6.9.Kato S, Ishiwata Y, Aoki R, Iwasawa T, Hagiwara E, Ogura T, et al. Imaging of COVID-19: An update of current evidences. Diagn Interv Imaging. 2021;102(9):493-500.10.Ozer H, Kilincer A, Uysal E, Yormaz B, Cebeci H, Durmaz MS, et al. Diagnostic performance of Radiological Society of North America structured reporting language for chest computed tomography findings in patients with COVID-19. Jpn J Radiol. 2021;39(9):877-88.11.Ramanan RV, Joshi AR, Venkataramanan A, Nambi SP, Badhe R. Incidental chest computed tomography findings in asymptomatic Covid-19 patients. A multicentre Indian perspective. Indian J Radiol Imaging. 2021;31(Suppl 1):S45-S52.12.Axiaq A, Almohtadi A, Massias SA, Ngemoh D, Harky A. The role of computed tomography scan in the diagnosis of COVID-19 pneumonia. Curr Opin Pulm Med. 2021;27(3):163-8.13.Ishfaq A, Yousaf Farooq SM, Goraya A, Yousaf M, Gilani SA, Kiran A, et al. Role of High Resolution Computed Tomography chest in the diagnosis and evaluation of COVID -19 patients -A systematic review and meta-analysis. Eur J Radiol Open. 2021;8:100350.14.Razek A, Fouda N, Fahmy D, Tanatawy MS, Sultan A, Bilal M, et al. Computed tomography of the chest in patients with COVID-19: what do radiologists want to know? Pol J Radiol. 2021;86:e122-e35.15.Revel MP, Boussouar S, de Margerie-Mellon C, Saab I, Lapotre T, Mompoint D, et al. Study of Thoracic CT in COVID-19: The STOIC Project. Radiology. 2021;301(1):E361-E70.16.Au-Yong I, Higashi Y, Giannotti E, Fogarty A, Morling JR, Grainge M, et al. Chest Radiograph Scoring Alone or Combined with Other Risk Scores for Predicting Outcomes in COVID-19. Radiology. 2021:210986.17.Little BP. Disease Severity Scoring for COVID-19: A Welcome (Semi)Quantitative Role for Chest Radiography. Radiology. 2021:212212.18.Prokop M, van Everdingen W, van Rees Vellinga T, Quarles van Ufford H, Stoger L, Beenen L, et al. CO-RADS: A Categorical CT Assessment Scheme for Patients Suspected of Having COVID-19-Definition and Evaluation. Radiology. 2020;296(2):E97-E104.19.Ozel M, Aslan A, Arac S. Use of the COVID-19 Reporting and Data System (CO-RADS) classification and chest computed tomography involvement score (CT-IS) in COVID-19 pneumonia. Radiol Med. 2021;126(5):679-87.20.Byrne D, Neill SBO, Muller NL, Muller CIS, Walsh JP, Jalal S, et al. RSNA Expert Consensus Statement on Reporting Chest CT Findings Related to COVID-19: Interobserver Agreement Between Chest Radiologists. Can Assoc Radiol J. 2021;72(1):159-66.21.Fonseca E, Loureiro BMC, Strabelli DG, Farias LPG, Garcia JVR, Gama VAA, et al. Evaluation of the RSNA and CORADS classifications for COVID-19 on chest computed tomography in the Brazilian population. Clinics (Sao Paulo). 2021;76:e2476.22.Barisione E, Grillo F, Ball L, Bianchi R, Grosso M, Morbini P, et al. Fibrotic progression and radiologic correlation in matched lung samples from COVID-19 post-mortems. Virchows Arch. 2021;478(3):471-85.23.Kianzad A, Meijboom LJ, Nossent EJ, Roos E, Schurink B, Bonta PI, et al. COVID-19: Histopathological correlates of imaging patterns on chest computed tomography. Respirology. 2021;26(9):869-77.24.Aesif SW, Bribriesco AC, Yadav R, Nugent SL, Zubkus D, Tan CD, et al. Pulmonary Pathology of COVID-19 Following 8 Weeks to 4 Months of Severe Disease: A Report of Three Cases, Including One With Bilateral Lung Transplantation. Am J Clin Pathol. 2021;155(4):506-14.25.De Cobelli F, Palumbo D, Ciceri F, Landoni G, Ruggeri A, Rovere-Querini P, et al. Pulmonary Vascular Thrombosis in COVID-19 Pneumonia. J Cardiothorac Vasc Anesth. 2021.26.Vlachou M, Drebes A, Candilio L, Weeraman D, Mir N, Murch N, et al. Pulmonary thrombosis in Covid-19: before, during and after hospital admission. J Thromb Thrombolysis. 2021;51(4):978-84.27.Caruso D, Guido G, Zerunian M, Polidori T, Lucertini E, Pucciarelli F, et al. Postacute Sequelae of COVID-19 Pneumonia: 6-month Chest CT Follow-up. Radiology. 2021:210834.28.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.29.Solomon JJ, Heyman B, Ko JP, Condos R, Lynch DA. CT of Post-Acute Lung Complications of COVID-19. Radiology. 2021:211396.30.Wells AU, Devaraj A, Desai SR. Interstitial Lung Disease after COVID-19 Infection: A Catalog of Uncertainties. Radiology. 2021;299(1):E216-E8.31.Han X, Fan Y, Alwalid O, Zhang X, Jia X, Zheng Y, et al. Fibrotic Interstitial Lung Abnormalities at 1-year Follow-up CT after Severe COVID-19. Radiology. 2021:210972.32.Lindahl A, Reijula J, Malmberg LP, Aro M, Vasankari T, Makela MJ. Small airway function in Finnish COVID-19 survivors. Respir Res. 2021;22(1):237.33.Small Airways Disease is a Post-Acute Sequelae of SARS-CoV-2 Infection [Internet]. 2021.34.Lopes AJ, Mafort TT, da Cal MS, Monnerat LB, Litrento PF, Ramos I, et al. Impulse Oscillometry Findings and Their Associations With Lung Ultrasound Signs in COVID-19 Survivors. Respir Care. 2021.35.Wells AU, Devaraj A. Residual Lung Disease at 6-month Follow-up CT after COVID-19: Clinical Significance Is a Key Issue. Radiology. 2021:211284.
REFERÊNCIAS1.Pontone G, Scafuri S, Mancini ME, Agalbato C, Guglielmo M, Baggiano A, et al. Role of computed tomography in COVID-19. J Cardiovasc Comput Tomogr. 2021;15(1):27-36.2.Cereser L, Da Re J, Zuiani C, Girometti R. Chest high-resolution computed tomography is associated to short-time progression to severe disease in patients with COVID-19 pneumonia. Clin Imaging. 2021;70:61-6.3.Hochhegger B, Mandelli NS, Stuker G, Meirelles GSP, Zanon M, Mohammed TL, et al. Coronavirus Disease 2019 (COVID-19) Pneumonia Presentations in Chest Computed Tomography: A Pictorial Review. Curr Probl Diagn Radiol. 2021;50(3):436-42.4.Besutti G, Ottone M, Fasano T, Pattacini P, Iotti V, Spaggiari L, et al. The value of computed tomography in assessing the risk of death in COVID-19 patients presenting to the emergency room. Eur Radiol. 2021.5.Mogami R, Lopes AJ, Araujo Filho RC, de Almeida FCS, Messeder A, Koifman ACB, et al. Chest computed tomography in COVID-19 pneumonia: a retrospective study of 155 patients at a university hospital in Rio de Janeiro, Brazil. Radiol Bras. 2021;54(1):1-8.6.Cau R, Falaschi Z, Pasche A, Danna P, Arioli R, Arru CD, et al. CT findings of COVID-19 pneumonia in ICU-patients. J Public Health Res. 2021.7.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021;299(3):E262-E79.8.Pourhoseingholi MA, Jafari R, Jafari NJ, Rahimi-Bashar F, Nourbakhsh M, Vahedian-Azimi A, et al. Predicting 1-year post-COVID-19 mortality based on chest computed tomography scan. J Med Virol. 2021;93(10):5694-6.9.Kato S, Ishiwata Y, Aoki R, Iwasawa T, Hagiwara E, Ogura T, et al. Imaging of COVID-19: An update of current evidences. Diagn Interv Imaging. 2021;102(9):493-500.10.Ozer H, Kilincer A, Uysal E, Yormaz B, Cebeci H, Durmaz MS, et al. Diagnostic performance of Radiological Society of North America structured reporting language for chest computed tomography findings in patients with COVID-19. Jpn J Radiol. 2021;39(9):877-88.11.Ramanan RV, Joshi AR, Venkataramanan A, Nambi SP, Badhe R. Incidental chest computed tomography findings in asymptomatic Covid-19 patients. A multicentre Indian perspective. Indian J Radiol Imaging. 2021;31(Suppl 1):S45-S52.12.Axiaq A, Almohtadi A, Massias SA, Ngemoh D, Harky A. The role of computed tomography scan in the diagnosis of COVID-19 pneumonia. Curr Opin Pulm Med. 2021;27(3):163-8.13.Ishfaq A, Yousaf Farooq SM, Goraya A, Yousaf M, Gilani SA, Kiran A, et al. Role of High Resolution Computed Tomography chest in the diagnosis and evaluation of COVID -19 patients -A systematic review and meta-analysis. Eur J Radiol Open. 2021;8:100350.14.Razek A, Fouda N, Fahmy D, Tanatawy MS, Sultan A, Bilal M, et al. Computed tomography of the chest in patients with COVID-19: what do radiologists want to know? Pol J Radiol. 2021;86:e122-e35.15.Revel MP, Boussouar S, de Margerie-Mellon C, Saab I, Lapotre T, Mompoint D, et al. Study of Thoracic CT in COVID-19: The STOIC Project. Radiology. 2021;301(1):E361-E70.16.Au-Yong I, Higashi Y, Giannotti E, Fogarty A, Morling JR, Grainge M, et al. Chest Radiograph Scoring Alone or Combined with Other Risk Scores for Predicting Outcomes in COVID-19. Radiology. 2021:210986.17.Little BP. Disease Severity Scoring for COVID-19: A Welcome (Semi)Quantitative Role for Chest Radiography. Radiology. 2021:212212.18.Prokop M, van Everdingen W, van Rees Vellinga T, Quarles van Ufford H, Stoger L, Beenen L, et al. CO-RADS: A Categorical CT Assessment Scheme for Patients Suspected of Having COVID-19-Definition and Evaluation. Radiology. 2020;296(2):E97-E104.19.Ozel M, Aslan A, Arac S. Use of the COVID-19 Reporting and Data System (CO-RADS) classification and chest computed tomography involvement score (CT-IS) in COVID-19 pneumonia. Radiol Med. 2021;126(5):679-87.20.Byrne D, Neill SBO, Muller NL, Muller CIS, Walsh JP, Jalal S, et al. RSNA Expert Consensus Statement on Reporting Chest CT Findings Related to COVID-19: Interobserver Agreement Between Chest Radiologists. Can Assoc Radiol J. 2021;72(1):159-66.21.Fonseca E, Loureiro BMC, Strabelli DG, Farias LPG, Garcia JVR, Gama VAA, et al. Evaluation of the RSNA and CORADS classifications for COVID-19 on chest computed tomography in the Brazilian population. Clinics (Sao Paulo). 2021;76:e2476.22.Barisione E, Grillo F, Ball L, Bianchi R, Grosso M, Morbini P, et al. Fibrotic progression and radiologic correlation in matched lung samples from COVID-19 post-mortems. Virchows Arch. 2021;478(3):471-85.23.Kianzad A, Meijboom LJ, Nossent EJ, Roos E, Schurink B, Bonta PI, et al. COVID-19: Histopathological correlates of imaging patterns on chest computed tomography. Respirology. 2021;26(9):869-77.24.Aesif SW, Bribriesco AC, Yadav R, Nugent SL, Zubkus D, Tan CD, et al. Pulmonary Pathology of COVID-19 Following 8 Weeks to 4 Months of Severe Disease: A Report of Three Cases, Including One With Bilateral Lung Transplantation. Am J Clin Pathol. 2021;155(4):506-14.25.De Cobelli F, Palumbo D, Ciceri F, Landoni G, Ruggeri A, Rovere-Querini P, et al. Pulmonary Vascular Thrombosis in COVID-19 Pneumonia. J Cardiothorac Vasc Anesth. 2021.26.Vlachou M, Drebes A, Candilio L, Weeraman D, Mir N, Murch N, et al. Pulmonary thrombosis in Covid-19: before, during and after hospital admission. J Thromb Thrombolysis. 2021;51(4):978-84.27.Caruso D, Guido G, Zerunian M, Polidori T, Lucertini E, Pucciarelli F, et al. Postacute Sequelae of COVID-19 Pneumonia: 6-month Chest CT Follow-up. Radiology. 2021:210834.28.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.29.Solomon JJ, Heyman B, Ko JP, Condos R, Lynch DA. CT of Post-Acute Lung Complications of COVID-19. Radiology. 2021:211396.30.Wells AU, Devaraj A, Desai SR. Interstitial Lung Disease after COVID-19 Infection: A Catalog of Uncertainties. Radiology. 2021;299(1):E216-E8.31.Han X, Fan Y, Alwalid O, Zhang X, Jia X, Zheng Y, et al. Fibrotic Interstitial Lung Abnormalities at 1-year Follow-up CT after Severe COVID-19. Radiology. 2021:210972.32.Lindahl A, Reijula J, Malmberg LP, Aro M, Vasankari T, Makela MJ. Small airway function in Finnish COVID-19 survivors. Respir Res. 2021;22(1):237.33.Small Airways Disease is a Post-Acute Sequelae of SARS-CoV-2 Infection [Internet]. 2021.34.Lopes AJ, Mafort TT, da Cal MS, Monnerat LB, Litrento PF, Ramos I, et al. Impulse Oscillometry Findings and Their Associations With Lung Ultrasound Signs in COVID-19 Survivors. Respir Care. 2021.35.Wells AU, Devaraj A. Residual Lung Disease at 6-month Follow-up CT after COVID-19: Clinical Significance Is a Key Issue. Radiology. 2021:211284.
REFERÊNCIAS1.Pontone G, Scafuri S, Mancini ME, Agalbato C, Guglielmo M, Baggiano A, et al. Role of computed tomography in COVID-19. J Cardiovasc Comput Tomogr. 2021;15(1):27-36.2.Cereser L, Da Re J, Zuiani C, Girometti R. Chest high-resolution computed tomography is associated to short-time progression to severe disease in patients with COVID-19 pneumonia. Clin Imaging. 2021;70:61-6.3.Hochhegger B, Mandelli NS, Stuker G, Meirelles GSP, Zanon M, Mohammed TL, et al. Coronavirus Disease 2019 (COVID-19) Pneumonia Presentations in Chest Computed Tomography: A Pictorial Review. Curr Probl Diagn Radiol. 2021;50(3):436-42.4.Besutti G, Ottone M, Fasano T, Pattacini P, Iotti V, Spaggiari L, et al. The value of computed tomography in assessing the risk of death in COVID-19 patients presenting to the emergency room. Eur Radiol. 2021.5.Mogami R, Lopes AJ, Araujo Filho RC, de Almeida FCS, Messeder A, Koifman ACB, et al. Chest computed tomography in COVID-19 pneumonia: a retrospective study of 155 patients at a university hospital in Rio de Janeiro, Brazil. Radiol Bras. 2021;54(1):1-8.6.Cau R, Falaschi Z, Pasche A, Danna P, Arioli R, Arru CD, et al. CT findings of COVID-19 pneumonia in ICU-patients. J Public Health Res. 2021.7.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021;299(3):E262-E79.8.Pourhoseingholi MA, Jafari R, Jafari NJ, Rahimi-Bashar F, Nourbakhsh M, Vahedian-Azimi A, et al. Predicting 1-year post-COVID-19 mortality based on chest computed tomography scan. J Med Virol. 2021;93(10):5694-6.9.Kato S, Ishiwata Y, Aoki R, Iwasawa T, Hagiwara E, Ogura T, et al. Imaging of COVID-19: An update of current evidences. Diagn Interv Imaging. 2021;102(9):493-500.10.Ozer H, Kilincer A, Uysal E, Yormaz B, Cebeci H, Durmaz MS, et al. Diagnostic performance of Radiological Society of North America structured reporting language for chest computed tomography findings in patients with COVID-19. Jpn J Radiol. 2021;39(9):877-88.11.Ramanan RV, Joshi AR, Venkataramanan A, Nambi SP, Badhe R. Incidental chest computed tomography findings in asymptomatic Covid-19 patients. A multicentre Indian perspective. Indian J Radiol Imaging. 2021;31(Suppl 1):S45-S52.12.Axiaq A, Almohtadi A, Massias SA, Ngemoh D, Harky A. The role of computed tomography scan in the diagnosis of COVID-19 pneumonia. Curr Opin Pulm Med. 2021;27(3):163-8.13.Ishfaq A, Yousaf Farooq SM, Goraya A, Yousaf M, Gilani SA, Kiran A, et al. Role of High Resolution Computed Tomography chest in the diagnosis and evaluation of COVID -19 patients -A systematic review and meta-analysis. Eur J Radiol Open. 2021;8:100350.14.Razek A, Fouda N, Fahmy D, Tanatawy MS, Sultan A, Bilal M, et al. Computed tomography of the chest in patients with COVID-19: what do radiologists want to know? Pol J Radiol. 2021;86:e122-e35.15.Revel MP, Boussouar S, de Margerie-Mellon C, Saab I, Lapotre T, Mompoint D, et al. Study of Thoracic CT in COVID-19: The STOIC Project. Radiology. 2021;301(1):E361-E70.16.Au-Yong I, Higashi Y, Giannotti E, Fogarty A, Morling JR, Grainge M, et al. Chest Radiograph Scoring Alone or Combined with Other Risk Scores for Predicting Outcomes in COVID-19. Radiology. 2021:210986.17.Little BP. Disease Severity Scoring for COVID-19: A Welcome (Semi)Quantitative Role for Chest Radiography. Radiology. 2021:212212.18.Prokop M, van Everdingen W, van Rees Vellinga T, Quarles van Ufford H, Stoger L, Beenen L, et al. CO-RADS: A Categorical CT Assessment Scheme for Patients Suspected of Having COVID-19-Definition and Evaluation. Radiology. 2020;296(2):E97-E104.19.Ozel M, Aslan A, Arac S. Use of the COVID-19 Reporting and Data System (CO-RADS) classification and chest computed tomography involvement score (CT-IS) in COVID-19 pneumonia. Radiol Med. 2021;126(5):679-87.20.Byrne D, Neill SBO, Muller NL, Muller CIS, Walsh JP, Jalal S, et al. RSNA Expert Consensus Statement on Reporting Chest CT Findings Related to COVID-19: Interobserver Agreement Between Chest Radiologists. Can Assoc Radiol J. 2021;72(1):159-66.21.Fonseca E, Loureiro BMC, Strabelli DG, Farias LPG, Garcia JVR, Gama VAA, et al. Evaluation of the RSNA and CORADS classifications for COVID-19 on chest computed tomography in the Brazilian population. Clinics (Sao Paulo). 2021;76:e2476.22.Barisione E, Grillo F, Ball L, Bianchi R, Grosso M, Morbini P, et al. Fibrotic progression and radiologic correlation in matched lung samples from COVID-19 post-mortems. Virchows Arch. 2021;478(3):471-85.23.Kianzad A, Meijboom LJ, Nossent EJ, Roos E, Schurink B, Bonta PI, et al. COVID-19: Histopathological correlates of imaging patterns on chest computed tomography. Respirology. 2021;26(9):869-77.24.Aesif SW, Bribriesco AC, Yadav R, Nugent SL, Zubkus D, Tan CD, et al. Pulmonary Pathology of COVID-19 Following 8 Weeks to 4 Months of Severe Disease: A Report of Three Cases, Including One With Bilateral Lung Transplantation. Am J Clin Pathol. 2021;155(4):506-14.25.De Cobelli F, Palumbo D, Ciceri F, Landoni G, Ruggeri A, Rovere-Querini P, et al. Pulmonary Vascular Thrombosis in COVID-19 Pneumonia. J Cardiothorac Vasc Anesth. 2021.26.Vlachou M, Drebes A, Candilio L, Weeraman D, Mir N, Murch N, et al. Pulmonary thrombosis in Covid-19: before, during and after hospital admission. J Thromb Thrombolysis. 2021;51(4):978-84.27.Caruso D, Guido G, Zerunian M, Polidori T, Lucertini E, Pucciarelli F, et al. Postacute Sequelae of COVID-19 Pneumonia: 6-month Chest CT Follow-up. Radiology. 2021:210834.28.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.29.Solomon JJ, Heyman B, Ko JP, Condos R, Lynch DA. CT of Post-Acute Lung Complications of COVID-19. Radiology. 2021:211396.30.Wells AU, Devaraj A, Desai SR. Interstitial Lung Disease after COVID-19 Infection: A Catalog of Uncertainties. Radiology. 2021;299(1):E216-E8.31.Han X, Fan Y, Alwalid O, Zhang X, Jia X, Zheng Y, et al. Fibrotic Interstitial Lung Abnormalities at 1-year Follow-up CT after Severe COVID-19. Radiology. 2021:210972.32.Lindahl A, Reijula J, Malmberg LP, Aro M, Vasankari T, Makela MJ. Small airway function in Finnish COVID-19 survivors. Respir Res. 2021;22(1):237.33.Small Airways Disease is a Post-Acute Sequelae of SARS-CoV-2 Infection [Internet]. 2021.34.Lopes AJ, Mafort TT, da Cal MS, Monnerat LB, Litrento PF, Ramos I, et al. Impulse Oscillometry Findings and Their Associations With Lung Ultrasound Signs in COVID-19 Survivors. Respir Care. 2021.35.Wells AU, Devaraj A. Residual Lung Disease at 6-month Follow-up CT after COVID-19: Clinical Significance Is a Key Issue. Radiology. 2021:211284.
REFERÊNCIAS1.Bunker T. Rotator Cuff Disease. Curr Orthop. 2002;16:223-33.2.Schaeffeler C, Mueller D, Kirchhoff C, Wolf P, Rummeny EJ, Woertler K. Tears at the rotator cuff footprint: prevalence and imaging characteristics in 305 MR arthrograms of the shoulder. Eur Radiol. 2011;21(7):1477-84.3.Zumstein MA. Rotator Cuff Pathology: State of the Art. JISAKOS. 2017:1-9.4.McCrum E. MR Imaging of the Rotator Cuff. Magn Reson Imaging Clin N Am. 2019.5.Huri G, Kaymakoglu M, Garbis N. Rotator cable and rotator interval: anatomy, biomechanics and clinical importance. EFORT Open Rev. 2019;4(2):56-62.6.Akhtar A, Richards J, Monga P. The biomechanics of the rotator cuff in health and disease - A narrative review. J Clin Orthop Trauma. 2021;18:150-6.7.Llopis E. Rotator Cuff. In: Hodler J, editor. Musculoskeletal Diseases: 2021-2024: Springer; 2021. p. 11.8.Sahu D, Phadnis A. Revisiting the rotator cuff footprint. J Clin Orthop Trauma. 2021;21:101514.9.Kellam P. Anatomy of the Subscapularis: A Review. J Shoulder Elbow Arth. 2019;3:1-6.10.Arai R, Sugaya H, Mochizuki T, Nimura A, Moriishi J, Akita K. Subscapularis tendon tear: an anatomic and clinical investigation. Arthroscopy. 2008;24(9):997-1004.11.Morag Y, Jamadar DA, Miller B, Dong Q, Jacobson JA. The subscapularis: anatomy, injury, and imaging. Skeletal Radiol. 2011;40(3):255-69.12.Ide J, Tokiyoshi A, Hirose J, Mizuta H. An anatomic study of the subscapularis insertion to the humerus: the subscapularis footprint. Arthroscopy. 2008;24(7):749-53.13.Tebaa E. Histologic characteristics of the subscapularis tendon from the muscle to bone: reference to subscapularis lesions. J Shoulder Elbow Surg. 2018.14.Chang EY. Imaging Diagnosis of Rotator Cuff Pathology and Impingement Syndromes2019.15.Kim SY, Boynton EL, Ravichandiran K, Fung LY, Bleakney R, Agur AM. Three-dimensional study of the musculotendinous architecture of supraspinatus and its functional correlations. Clin Anat. 2007;20(6):648-55.16.Roh MS, Wang VM, April EW, Pollock RG, Bigliani LU, Flatow EL. Anterior and posterior musculotendinous anatomy of the supraspinatus. J Shoulder Elbow Surg. 2000;9(5):436-40.17.Vieira AC, Montez Perez E, M FH, Abascal F, Cerezal L. Myotendinous junction tear of the anterior bundle of the supraspinatus muscle-a rare pattern of injury involving rotator cuff muscles. BJR Case Rep. 2020;6(4):20200004.18.Mochizuki T. Humeral Insertion of the Supraspinatus and Infraspinatus. New Anatomical Findings Regarding the Footprint of the Rotator Cuff. J Bone Joint Surg Am. 2009:1-7.19.Bacle G, Gregoire JM, Patat F, Clavert P, de Pinieux G, Laulan J, et al. Anatomy and relations of the infraspinatus and the teres minor muscles: a fresh cadaver dissection study. Surg Radiol Anat. 2017;39(2):119-26.20.Rahu M, Kolts I, Poldoja E, Kask K. Rotator cuff tendon connections with the rotator cable. Knee Surg Sports Traumatol Arthrosc. 2017;25(7):2047-50.21.de Almeida Filho IA, Coelho DA. Rotator Cuff Healing. Rev Bras Ortop (Sao Paulo). 2021;56(3):291-8.22.Sheah K, Bredella MA, Warner JJ, Halpern EF, Palmer WE. Transverse thickening along the articular surface of the rotator cuff consistent with the rotator cable: identification with MR arthrography and relevance in rotator cuff evaluation. AJR Am J Roentgenol. 2009;193(3):679-86.23.Morag Y, Jacobson JA, Lucas D, Miller B, Brigido MK, Jamadar DA. US appearance of the rotator cable with histologic correlation: preliminary results. Radiology. 2006;241(2):485-91.24.Podgorski MT, Olewnik L, Grzelak P, Polguj M, Topol M. Rotator cable in pathological shoulders: comparison with normal anatomy in a cadaveric study. Anat Sci Int. 2019;94(1):53-7.25.Codding JL, Keener JD. Natural History of Degenerative Rotator Cuff Tears. Curr Rev Musculoskelet Med. 2018;11(1):77-85.
REFERÊNCIAS1.Bunker T. Rotator Cuff Disease. Curr Orthop. 2002;16:223-33.2.Schaeffeler C, Mueller D, Kirchhoff C, Wolf P, Rummeny EJ, Woertler K. Tears at the rotator cuff footprint: prevalence and imaging characteristics in 305 MR arthrograms of the shoulder. Eur Radiol. 2011;21(7):1477-84.3.Zumstein MA. Rotator Cuff Pathology: State of the Art. JISAKOS. 2017:1-9.4.McCrum E. MR Imaging of the Rotator Cuff. Magn Reson Imaging Clin N Am. 2019.5.Huri G, Kaymakoglu M, Garbis N. Rotator cable and rotator interval: anatomy, biomechanics and clinical importance. EFORT Open Rev. 2019;4(2):56-62.6.Akhtar A, Richards J, Monga P. The biomechanics of the rotator cuff in health and disease - A narrative review. J Clin Orthop Trauma. 2021;18:150-6.7.Llopis E. Rotator Cuff. In: Hodler J, editor. Musculoskeletal Diseases: 2021-2024: Springer; 2021. p. 11.8.Sahu D, Phadnis A. Revisiting the rotator cuff footprint. J Clin Orthop Trauma. 2021;21:101514.9.Kellam P. Anatomy of the Subscapularis: A Review. J Shoulder Elbow Arth. 2019;3:1-6.10.Arai R, Sugaya H, Mochizuki T, Nimura A, Moriishi J, Akita K. Subscapularis tendon tear: an anatomic and clinical investigation. Arthroscopy. 2008;24(9):997-1004.11.Morag Y, Jamadar DA, Miller B, Dong Q, Jacobson JA. The subscapularis: anatomy, injury, and imaging. Skeletal Radiol. 2011;40(3):255-69.12.Ide J, Tokiyoshi A, Hirose J, Mizuta H. An anatomic study of the subscapularis insertion to the humerus: the subscapularis footprint. Arthroscopy. 2008;24(7):749-53.13.Tebaa E. Histologic characteristics of the subscapularis tendon from the muscle to bone: reference to subscapularis lesions. J Shoulder Elbow Surg. 2018.14.Chang EY. Imaging Diagnosis of Rotator Cuff Pathology and Impingement Syndromes2019.15.Kim SY, Boynton EL, Ravichandiran K, Fung LY, Bleakney R, Agur AM. Three-dimensional study of the musculotendinous architecture of supraspinatus and its functional correlations. Clin Anat. 2007;20(6):648-55.16.Roh MS, Wang VM, April EW, Pollock RG, Bigliani LU, Flatow EL. Anterior and posterior musculotendinous anatomy of the supraspinatus. J Shoulder Elbow Surg. 2000;9(5):436-40.17.Vieira AC, Montez Perez E, M FH, Abascal F, Cerezal L. Myotendinous junction tear of the anterior bundle of the supraspinatus muscle-a rare pattern of injury involving rotator cuff muscles. BJR Case Rep. 2020;6(4):20200004.18.Mochizuki T. Humeral Insertion of the Supraspinatus and Infraspinatus. New Anatomical Findings Regarding the Footprint of the Rotator Cuff. J Bone Joint Surg Am. 2009:1-7.19.Bacle G, Gregoire JM, Patat F, Clavert P, de Pinieux G, Laulan J, et al. Anatomy and relations of the infraspinatus and the teres minor muscles: a fresh cadaver dissection study. Surg Radiol Anat. 2017;39(2):119-26.20.Rahu M, Kolts I, Poldoja E, Kask K. Rotator cuff tendon connections with the rotator cable. Knee Surg Sports Traumatol Arthrosc. 2017;25(7):2047-50.21.de Almeida Filho IA, Coelho DA. Rotator Cuff Healing. Rev Bras Ortop (Sao Paulo). 2021;56(3):291-8.22.Sheah K, Bredella MA, Warner JJ, Halpern EF, Palmer WE. Transverse thickening along the articular surface of the rotator cuff consistent with the rotator cable: identification with MR arthrography and relevance in rotator cuff evaluation. AJR Am J Roentgenol. 2009;193(3):679-86.23.Morag Y, Jacobson JA, Lucas D, Miller B, Brigido MK, Jamadar DA. US appearance of the rotator cable with histologic correlation: preliminary results. Radiology. 2006;241(2):485-91.24.Podgorski MT, Olewnik L, Grzelak P, Polguj M, Topol M. Rotator cable in pathological shoulders: comparison with normal anatomy in a cadaveric study. Anat Sci Int. 2019;94(1):53-7.25.Codding JL, Keener JD. Natural History of Degenerative Rotator Cuff Tears. Curr Rev Musculoskelet Med. 2018;11(1):77-85.
REFERÊNCIAS1.Zappia M, Reginelli A, Russo A, D'Agosto GF, Di Pietto F, Genovese EA, et al. Long head of the biceps tendon and rotator interval. Musculoskelet Surg. 2013;97 Suppl 2:S99-108.2.Khazzam M, George MS, Churchill RS, Kuhn JE. Disorders of the long head of biceps tendon. J Shoulder Elbow Surg. 2012;21(1):136-45.3.Werner A, Mueller T, Boehm D, Gohlke F. The stabilizing sling for the long head of the biceps tendon in the rotator cuff interval. A histoanatomic study. Am J Sports Med. 2000;28(1):28-31.4.Nakata W, Katou S, Fujita A, Nakata M, Lefor AT, Sugimoto H. Biceps pulley: normal anatomy and associated lesions at MR arthrography. Radiographics. 2011;31(3):791-810.5.Elser F, Braun S, Dewing CB, Giphart JE, Millett PJ. Anatomy, function, injuries, and treatment of the long head of the biceps brachii tendon. Arthroscopy. 2011;27(4):581-92.6.Krupp RJ, Kevern MA, Gaines MD, Kotara S, Singleton SB. Long head of the biceps tendon pain: differential diagnosis and treatment. J Orthop Sports Phys Ther. 2009;39(2):55-70.7.Ahrens PM, Boileau P. The long head of biceps and associated tendinopathy. J Bone Joint Surg Br. 2007;89(8):1001-9.8.Ejnisman B, Monteiro GC, Andreoli CV, de Castro Pochini A. Disorder of the long head of the biceps tendon. Br J Sports Med. 2010;44(5):347-54.9.Mazzocca AD, McCarthy MB, Ledgard FA, Chowaniec DM, McKinnon WJ, Jr., Delaronde S, et al. Histomorphologic changes of the long head of the biceps tendon in common shoulder pathologies. Arthroscopy. 2013;29(6):972-81.10.Boileau P, Ahrens PM, Hatzidakis AM. Entrapment of the long head of the biceps tendon: the hourglass biceps--a cause of pain and locking of the shoulder. J Shoulder Elbow Surg. 2004;13(3):249-57.11.Zappia M, Chianca V, Di Pietto F, Reginelli A, Natella R, Maggialetti N, et al. Imaging of long head biceps tendon. A multimodality pictorial essay. Acta Biomed. 2019;90(5-S):84-94.12.Castagna A, Mouhsine E, Conti M, Vinci E, Borroni M, Giardella A, et al. Chondral print on humeral head: an indirect sign of long head biceps tendon instability. Knee Surg Sports Traumatol Arthrosc. 2007;15(5):645-8.13.Skendzel JG, Jacobson JA, Carpenter JE, Miller BS. Long head of biceps brachii tendon evaluation: accuracy of preoperative ultrasound. AJR Am J Roentgenol. 2011;197(4):942-8.14.Carvalho CD, Cohen C, Belangero PS, Pochini AC, Andreoli CV, Ejnisman B. Supraspinatus Muscle Tendon Lesion and Its Relationship with Long Head of the Biceps Lesion. Rev Bras Ortop (Sao Paulo). 2020;55(3):329-38.15.Gaskin CM, Anderson MW, Choudhri A, Diduch DR. Focal partial tears of the long head of the biceps brachii tendon at the entrance to the bicipital groove: MR imaging findings, surgical correlation, and clinical significance. Skeletal Radiol. 2009;38(10):959-65.
REFERÊNCIAS1.Zappia M, Reginelli A, Russo A, D'Agosto GF, Di Pietto F, Genovese EA, et al. Long head of the biceps tendon and rotator interval. Musculoskelet Surg. 2013;97 Suppl 2:S99-108.2.Khazzam M, George MS, Churchill RS, Kuhn JE. Disorders of the long head of biceps tendon. J Shoulder Elbow Surg. 2012;21(1):136-45.3.Werner A, Mueller T, Boehm D, Gohlke F. The stabilizing sling for the long head of the biceps tendon in the rotator cuff interval. A histoanatomic study. Am J Sports Med. 2000;28(1):28-31.4.Nakata W, Katou S, Fujita A, Nakata M, Lefor AT, Sugimoto H. Biceps pulley: normal anatomy and associated lesions at MR arthrography. Radiographics. 2011;31(3):791-810.5.Elser F, Braun S, Dewing CB, Giphart JE, Millett PJ. Anatomy, function, injuries, and treatment of the long head of the biceps brachii tendon. Arthroscopy. 2011;27(4):581-92.6.Krupp RJ, Kevern MA, Gaines MD, Kotara S, Singleton SB. Long head of the biceps tendon pain: differential diagnosis and treatment. J Orthop Sports Phys Ther. 2009;39(2):55-70.7.Ahrens PM, Boileau P. The long head of biceps and associated tendinopathy. J Bone Joint Surg Br. 2007;89(8):1001-9.8.Ejnisman B, Monteiro GC, Andreoli CV, de Castro Pochini A. Disorder of the long head of the biceps tendon. Br J Sports Med. 2010;44(5):347-54.9.Mazzocca AD, McCarthy MB, Ledgard FA, Chowaniec DM, McKinnon WJ, Jr., Delaronde S, et al. Histomorphologic changes of the long head of the biceps tendon in common shoulder pathologies. Arthroscopy. 2013;29(6):972-81.10.Boileau P, Ahrens PM, Hatzidakis AM. Entrapment of the long head of the biceps tendon: the hourglass biceps--a cause of pain and locking of the shoulder. J Shoulder Elbow Surg. 2004;13(3):249-57.11.Zappia M, Chianca V, Di Pietto F, Reginelli A, Natella R, Maggialetti N, et al. Imaging of long head biceps tendon. A multimodality pictorial essay. Acta Biomed. 2019;90(5-S):84-94.12.Castagna A, Mouhsine E, Conti M, Vinci E, Borroni M, Giardella A, et al. Chondral print on humeral head: an indirect sign of long head biceps tendon instability. Knee Surg Sports Traumatol Arthrosc. 2007;15(5):645-8.13.Skendzel JG, Jacobson JA, Carpenter JE, Miller BS. Long head of biceps brachii tendon evaluation: accuracy of preoperative ultrasound. AJR Am J Roentgenol. 2011;197(4):942-8.14.Carvalho CD, Cohen C, Belangero PS, Pochini AC, Andreoli CV, Ejnisman B. Supraspinatus Muscle Tendon Lesion and Its Relationship with Long Head of the Biceps Lesion. Rev Bras Ortop (Sao Paulo). 2020;55(3):329-38.15.Gaskin CM, Anderson MW, Choudhri A, Diduch DR. Focal partial tears of the long head of the biceps brachii tendon at the entrance to the bicipital groove: MR imaging findings, surgical correlation, and clinical significance. Skeletal Radiol. 2009;38(10):959-65.
REFERÊNCIAS1.Draghi F, Cocco G, Richelmi FM, Schiavone C. Abdominal wall sonography: a pictorial review. J Ultrasound. 2020;23(3):265-78.2.Stavros AT, Rapp C. Dynamic ultrasound of hernias of the groin and anterior abdominal wall. Ultrasound Q. 2010;26(3):135-69.3.Matalon SA, Askari R, Gates JD, Patel K, Sodickson AD, Khurana B. Don't Forget the Abdominal Wall: Imaging Spectrum of Abdominal Wall Injuries after Nonpenetrating Trauma. Radiographics. 2017;37(4):1218-35.4.Stensby JD, Baker JC, Fox MG. Athletic injuries of the lateral abdominal wall: review of anatomy and MR imaging appearance. Skeletal Radiol. 2016;45(2):155-62.5.Sameshima YT, Yamanari MG, Silva MA, Neto MJ, Funari MB. The challenging sonographic inguinal canal evaluation in neonates and children: an update of differential diagnoses. Pediatr Radiol. 2017;47(4):461-72.6.Miller HJ. Inguinal Hernia: Mastering the Anatomy. Surg Clin North Am. 2018;98(3):607-21.7.Lassandro F, Iasiello F, Pizza NL, Valente T, Stefano ML, Grassi R, et al. Abdominal hernias: Radiological features. World J Gastrointest Endosc. 2011;3(6):110-7.8.Rettenbacher T, Hollerweger A, Macheiner P, Gritzmann N, Gotwald T, Frass R, et al. Abdominal wall hernias: cross-sectional imaging signs of incarceration determined with sonography. AJR Am J Roentgenol. 2001;177(5):1061-6.9.Murphy KP, O'Connor OJ, Maher MM. Adult abdominal hernias. AJR Am J Roentgenol. 2014;202(6):W506-11.10.Sinha R, Rajiah P, Tiwary P. Abdominal hernias: imaging review and historical perspectives. Curr Probl Diagn Radiol. 2007;36(1):30-42.
REFERÊNCIAS1.Draghi F, Cocco G, Richelmi FM, Schiavone C. Abdominal wall sonography: a pictorial review. J Ultrasound. 2020;23(3):265-78.2.Stavros AT, Rapp C. Dynamic ultrasound of hernias of the groin and anterior abdominal wall. Ultrasound Q. 2010;26(3):135-69.3.Matalon SA, Askari R, Gates JD, Patel K, Sodickson AD, Khurana B. Don't Forget the Abdominal Wall: Imaging Spectrum of Abdominal Wall Injuries after Nonpenetrating Trauma. Radiographics. 2017;37(4):1218-35.4.Stensby JD, Baker JC, Fox MG. Athletic injuries of the lateral abdominal wall: review of anatomy and MR imaging appearance. Skeletal Radiol. 2016;45(2):155-62.5.Sameshima YT, Yamanari MG, Silva MA, Neto MJ, Funari MB. The challenging sonographic inguinal canal evaluation in neonates and children: an update of differential diagnoses. Pediatr Radiol. 2017;47(4):461-72.6.Miller HJ. Inguinal Hernia: Mastering the Anatomy. Surg Clin North Am. 2018;98(3):607-21.7.Lassandro F, Iasiello F, Pizza NL, Valente T, Stefano ML, Grassi R, et al. Abdominal hernias: Radiological features. World J Gastrointest Endosc. 2011;3(6):110-7.8.Rettenbacher T, Hollerweger A, Macheiner P, Gritzmann N, Gotwald T, Frass R, et al. Abdominal wall hernias: cross-sectional imaging signs of incarceration determined with sonography. AJR Am J Roentgenol. 2001;177(5):1061-6.9.Murphy KP, O'Connor OJ, Maher MM. Adult abdominal hernias. AJR Am J Roentgenol. 2014;202(6):W506-11.10.Sinha R, Rajiah P, Tiwary P. Abdominal hernias: imaging review and historical perspectives. Curr Probl Diagn Radiol. 2007;36(1):30-42.
Referências:1.Sansone V, Maiorano E, Galluzzo A, Pascale V. Calcific tendinopathy of the shoulder: clinical perspectives into the mechanisms, pathogenesis, and treatment. Orthop Res Rev. 2018;10:63-72.2.Hurt G, Baker CL, Jr. Calcific tendinitis of the shoulder. Orthop Clin North Am. 2003;34(4):567-75.3.Albano D, Coppola A, Gitto S, Rapisarda S, Messina C, Sconfienza LM. Imaging of calcific tendinopathy around the shoulder: usual and unusual presentations and common pitfalls. Radiol Med. 2021;126(4):608-19.4.Serafini G, Sconfienza LM, Lacelli F, Silvestri E, Aliprandi A, Sardanelli F. Rotator cuff calcific tendonitis: short-term and 10-year outcomes after two-needle us-guided percutaneous treatment--nonrandomized controlled trial. Radiology. 2009;252(1):157-64.5.Darrieutort-Laffite C, Blanchard F, Le Goff B. Calcific tendonitis of the rotator cuff: From formation to resorption. Joint Bone Spine. 2018;85(6):687-92.6.Uhthoff HK, Loehr JW. Calcific Tendinopathy of the Rotator Cuff: Pathogenesis, Diagnosis, and Management. J Am Acad Orthop Surg. 1997;5(4):183-91.7.Beggs I. Shoulder ultrasound. Semin Ultrasound CT MR. 2011;32(2):101-13.8.Merolla G, Bhat MG, Paladini P, Porcellini G. Complications of calcific tendinitis of the shoulder: a concise review. J Orthop Traumatol. 2015;16(3):175-83.9.Chiou HJ, Chou YH, Wu JJ, Huang TF, Ma HL, Hsu CC, et al. The role of high-resolution ultrasonography in management of calcific tendonitis of the rotator cuff. Ultrasound Med Biol. 2001;27(6):735-43.10.Le Goff B, Berthelot JM, Guillot P, Glemarec J, Maugars Y. Assessment of calcific tendonitis of rotator cuff by ultrasonography: comparison between symptomatic and asymptomatic shoulders. Joint Bone Spine. 2010;77(3):258-63.11.Brinkman JC, Zaw TM, Fox MG, Wilcox JG, Hattrup SJ, Chhabra A, et al. Calcific Tendonitis of the Shoulder: Protector or Predictor of Cuff Pathology? A Magnetic Resonance Imaging-Based Study. Arthroscopy. 2020;36(4):983-90.
Referências:1.Alizai H, Walter W, Khodarahmi I, Burke CJ. Cartilage Imaging in Osteoarthritis. Semin Musculoskelet Radiol. 2019; 23 (5): 569-78.2.Hunter DJ, Bierma-Zeinstra S. Osteoarthritis. Lancet. 2019; 393 (10182): 1745-59.3.Roemer FW, Crema MD, Trattnig S, Guermazi A. Advances in imaging of osteoarthritis and cartilage. Radiology. 2011; 260 (2): 332-54.4.Mcgonagle D, Tan AL, Grainger AJ, Benjamim M. Heberden's nodes and what Heberden could not see: the pivotal role of ligaments in the pathogenesis of early nodal osteoarthritis and beyond. Rheumatology 2008; 47: 1278–12855.Sophia Fox AJ, Bedi A, Rodeo SA. The basic science of articular cartilage: structure, composition, and function. Sports Health. 2009; 1 (6): 461-8.6.Pathria MN, Chung CB, Resnick DL. Acute and Stress-related Injuries of Bone and Cartilage: Pertinent Anatomy, Basic Biomechanics, and Imaging Perspective. Radiology 2016; 280 (1): 21-38.7.Huber M, Trattnig S, Lintner F. Anatomy, biochemistry, and physiology of articular cartilage. Invest Radiol. 2000; 35 (10): 573-80.8.Heijink A, Gomoll AH, Madry H, Drobnic M, Filardo G, Espregueira-Mendes J et al. Biomechanical Considerations in the Pathogenesis of Osteoarthritis of the Knee. Knee Surg Sports Traumatol Arthrosc 2012; 20: 423-4359.Martinez-Moreno D, Jimenez G, Galvez-Martin P, Rus G, Marchal JA. Cartilage biomechanics: A key factor for osteoarthritis regenerative medicine. Biochim Biophys Acta Mol Basis Dis. 2019; 1865 (6): 1067-75.10.Wang X, Hunter DJ, Jin X, Ding C. The importance of synovial inflammation in osteoarthritis: current evidence from imaging assessments and clinical trials. Osteoarthritis and Cartilage 2018; 26 (2): 165e17411.Haugen IK, Boyesen P. Imaging modalities in hand osteoarthritis – status and perspectives of conventional radiography, magnetic resonance imaging, and ultrasonography. Arthritis Res Ther 2011; 13 (6): 24812.Ridley WE, Xiang H, Han J, Ridley LJ. Gull-wing Deformity: Osteoarthritis. J Med Im Rad Onc 2018; 62 (S1): 141.13.Zhang Y, Niu J, Kelly-Hayes M, Chaisson CE, Aliabadi P, Felson DT. Prevalence of symptomatic hand osteoarthritis and its impact on functional status among the elderly: The Framingham Study. Am J Epidemiol. 2002; 156 (11): 1021-7.14.N S. Hand Osteoarthritis — Clinical Presentation, Phenotypes and Management. 2015.15.Tan AL, Grainger AJ, Tanner SF, Shelley DM, Pease C, Emery P, et al. High-resolution magnetic resonance imaging for the assessment of hand osteoarthritis. Arthritis Rheum. 2005; 52 (8): 2355-65.16.Mathiessen A, Slatkowsky-Christensen B, Kvien TK, Hammer HB, Haugen IK. Ultrasound-detected inflammation predicts radiographic progression in hand osteoarthritis after 5 years. Ann Rheum Dis. 2016; 75 (5): 825-30.17.Okano T, Mamoto K, Di Carlo M, Salaffi F. Clinical utility and potential of ultrasound in osteoarthritis. Radiol Med. 2019; 124 (11): 1101-11.18.Hammer HB, Iagnocco A, Mathiessen A, Filippucci E, Gandjbakhch F, Kortekaas MC, et al. Global ultrasound assessment of structural lesions in osteoarthritis: a reliability study by the OMERACT ultrasonography group on scoring cartilage and osteophytes in finger joints. Ann Rheum Dis. 2016; 75 (2): 402-7.
Referências1.Wu X, Liu X, Zhou Y, Yu H, Li R, Zhan Q, et al. 3-month, 6-month, 9-month, and 12-month respiratory outcomes in patients following COVID-19-related hospitalisation: a prospective study. Lancet Respir Med. 2021.2.Cherrez-Ojeda I, Gochicoa-Rangel L, Salles-Rojas A, Mautong H. [Follow-up of patients after COVID-19 pneumonia. Pulmonary sequelae]. Rev Alerg Mex. 2020;67(4):350-69.3.Kamal M, Abo Omirah M, Hussein A, Saeed H. Assessment and characterisation of post-COVID-19 manifestations. Int J Clin Pract. 2021;75(3):e13746.4.Mikkelsen M, Abramoff B. COVID-19: Evaluation and management of adults following acute viral illness 2021 [homepage on the internet]; [updated Apr 26, 2021; cited May 29, 2021]. Availabel from https://www.uptodate.com/contents/covid-19-evaluation-and-management-of-adults-following-acute-viral-illness5.NHS. National guidance for post-COVID syndrome assessment clinics 2021 [homepage on the internet]; [updated Apr 26, 2021; cited May 29, 2021]. Available form https://www.england.nhs.uk/coronavirus/publication/national-guidance-for-post-covid-syndrome-assessment-clinics/6.Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.7.Nalbandian A, Sehgal K, Gupta A, Madhavan MV, McGroder C, Stevens JS, et al. Post-acute COVID-19 syndrome. Nat Med. 2021;27(4):601-15.8.Fernandez-de-Las-Penas C, Palacios-Cena D, Gomez-Mayordomo V, Cuadrado ML, Florencio LL. Defining Post-COVID Symptoms (Post-Acute COVID, Long COVID, Persistent Post-COVID): An Integrative Classification. Int J Environ Res Public Health. 2021;18(5).9.Mandal S, Barnett J, Brill SE, Brown JS, Denneny EK, Hare SS, et al. 'Long-COVID': a cross-sectional study of persisting symptoms, biomarker and imaging abnormalities following hospitalisation for COVID-19. Thorax. 2020.10.Moreno-Perez O, Merino E, Leon-Ramirez JM, Andres M, Ramos JM, Arenas-Jimenez J, et al. Post-acute COVID-19 syndrome. Incidence and risk factors: A Mediterranean cohort study. J Infect. 2021;82(3):378-83.11.British Thoracic Society Guidance on Respiratory Follow Up of Patients with a Clinico-Radiological Diagnosis of COVID-19 Pneumonia. [homepage on the internet]; [updated Apr 16, 2021; cited May 29, 2021]. Available from https://www.brit-thoracic.org.uk/covid-19/covid-19-information-for-the-respiratory-community/12.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.13.D'Cruz RF, Waller MD, Perrin F, Periselneris J, Norton S, Smith LJ, et al. Chest radiography is a poor predictor of respiratory symptoms and functional impairment in survivors of severe COVID-19 pneumonia. ERJ Open Res. 2021;7(1).14.Wallis TJM, Heiden E, Horno J, Welham B, Burke H, Freeman A, et al. Risk factors for persistent abnormality on chest radiographs at 12-weeks post hospitalisation with PCR confirmed COVID-19. Respir Res. 2021;22(1):157.15.Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.16.Aronson KI, Podolanczuk AJ. Lungs after COVID-19: Evolving Knowledge of Post-COVID-19 Interstitial Lung Disease. Ann Am Thorac Soc. 2021;18(5):773-4.17.Myall KJ, Mukherjee B, Castanheira AM, Lam JL, Benedetti G, Mak SM, et al. Persistent Post-COVID-19 Interstitial Lung Disease. An Observational Study of Corticosteroid Treatment. Ann Am Thorac Soc. 2021;18(5):799-806.18.Rai D. Post‐COVID‐19 Sequelae‐Issue Which Remain Unanswered. Journal of Applied Sciences and Clinical Practice. 2020;1(1):7-10.19.Oronsky B, Larson C, Hammond TC, Oronsky A, Kesari S, Lybeck M, et al. A Review of Persistent Post-COVID Syndrome (PPCS). Clin Rev Allergy Immunol. 2021.20.McDonald LT. Healing after COVID-19: are survivors at risk for pulmonary fibrosis? Am J Physiol Lung Cell Mol Physiol. 2021;320(2):L257-L65.
Referências1.Wu X, Liu X, Zhou Y, Yu H, Li R, Zhan Q, et al. 3-month, 6-month, 9-month, and 12-month respiratory outcomes in patients following COVID-19-related hospitalisation: a prospective study. Lancet Respir Med. 2021.2.Cherrez-Ojeda I, Gochicoa-Rangel L, Salles-Rojas A, Mautong H. [Follow-up of patients after COVID-19 pneumonia. Pulmonary sequelae]. Rev Alerg Mex. 2020;67(4):350-69.3.Kamal M, Abo Omirah M, Hussein A, Saeed H. Assessment and characterisation of post-COVID-19 manifestations. Int J Clin Pract. 2021;75(3):e13746.4.Mikkelsen M, Abramoff B. COVID-19: Evaluation and management of adults following acute viral illness 2021 [homepage on the internet]; [updated Apr 26, 2021; cited May 29, 2021]. Availabel from https://www.uptodate.com/contents/covid-19-evaluation-and-management-of-adults-following-acute-viral-illness5.NHS. National guidance for post-COVID syndrome assessment clinics 2021 [homepage on the internet]; [updated Apr 26, 2021; cited May 29, 2021]. Available form https://www.england.nhs.uk/coronavirus/publication/national-guidance-for-post-covid-syndrome-assessment-clinics/6.Ayoubkhani D, Khunti K, Nafilyan V, Maddox T, Humberstone B, Diamond I, et al. Post-covid syndrome in individuals admitted to hospital with covid-19: retrospective cohort study. BMJ. 2021;372:n693.7.Nalbandian A, Sehgal K, Gupta A, Madhavan MV, McGroder C, Stevens JS, et al. Post-acute COVID-19 syndrome. Nat Med. 2021;27(4):601-15.8.Fernandez-de-Las-Penas C, Palacios-Cena D, Gomez-Mayordomo V, Cuadrado ML, Florencio LL. Defining Post-COVID Symptoms (Post-Acute COVID, Long COVID, Persistent Post-COVID): An Integrative Classification. Int J Environ Res Public Health. 2021;18(5).9.Mandal S, Barnett J, Brill SE, Brown JS, Denneny EK, Hare SS, et al. 'Long-COVID': a cross-sectional study of persisting symptoms, biomarker and imaging abnormalities following hospitalisation for COVID-19. Thorax. 2020.10.Moreno-Perez O, Merino E, Leon-Ramirez JM, Andres M, Ramos JM, Arenas-Jimenez J, et al. Post-acute COVID-19 syndrome. Incidence and risk factors: A Mediterranean cohort study. J Infect. 2021;82(3):378-83.11.British Thoracic Society Guidance on Respiratory Follow Up of Patients with a Clinico-Radiological Diagnosis of COVID-19 Pneumonia. [homepage on the internet]; [updated Apr 16, 2021; cited May 29, 2021]. Available from https://www.brit-thoracic.org.uk/covid-19/covid-19-information-for-the-respiratory-community/12.Han X, Fan Y, Alwalid O, Li N, Jia X, Yuan M, et al. Six-month Follow-up Chest CT Findings after Severe COVID-19 Pneumonia. Radiology. 2021;299(1):E177-E86.13.D'Cruz RF, Waller MD, Perrin F, Periselneris J, Norton S, Smith LJ, et al. Chest radiography is a poor predictor of respiratory symptoms and functional impairment in survivors of severe COVID-19 pneumonia. ERJ Open Res. 2021;7(1).14.Wallis TJM, Heiden E, Horno J, Welham B, Burke H, Freeman A, et al. Risk factors for persistent abnormality on chest radiographs at 12-weeks post hospitalisation with PCR confirmed COVID-19. Respir Res. 2021;22(1):157.15.Donnelly JP, Wang XQ, Iwashyna TJ, Prescott HC. Readmission and Death After Initial Hospital Discharge Among Patients With COVID-19 in a Large Multihospital System. JAMA. 2021;325(3):304-6.16.Aronson KI, Podolanczuk AJ. Lungs after COVID-19: Evolving Knowledge of Post-COVID-19 Interstitial Lung Disease. Ann Am Thorac Soc. 2021;18(5):773-4.17.Myall KJ, Mukherjee B, Castanheira AM, Lam JL, Benedetti G, Mak SM, et al. Persistent Post-COVID-19 Interstitial Lung Disease. An Observational Study of Corticosteroid Treatment. Ann Am Thorac Soc. 2021;18(5):799-806.18.Rai D. Post‐COVID‐19 Sequelae‐Issue Which Remain Unanswered. Journal of Applied Sciences and Clinical Practice. 2020;1(1):7-10.19.Oronsky B, Larson C, Hammond TC, Oronsky A, Kesari S, Lybeck M, et al. A Review of Persistent Post-COVID Syndrome (PPCS). Clin Rev Allergy Immunol. 2021.20.McDonald LT. Healing after COVID-19: are survivors at risk for pulmonary fibrosis? Am J Physiol Lung Cell Mol Physiol. 2021;320(2):L257-L65.
Referências1.Sista AK, Kuo WT, Schiebler M, Madoff DC. Stratification, Imaging, and Management of Acute Massive and Submassive Pulmonary Embolism. Radiology. 2017;284(1):5-24.2.Konstantinides SV, Meyer G, Becattini C, Bueno H, Geersing GJ, Harjola VP, et al. 2019 ESC Guidelines for the diagnosis and management of acute pulmonary embolism developed in collaboration with the European Respiratory Society (ERS). Eur Heart J. 2020;41(4):543-603.3.Essien EO, Rali P, Mathai SC. Pulmonary Embolism. Med Clin North Am. 2019;103(3):549-64.4.Albrecht MH, Bickford MW, Nance JW, Jr., Zhang L, De Cecco CN, Wichmann JL, et al. State-of-the-Art Pulmonary CT Angiography for Acute Pulmonary Embolism. AJR Am J Roentgenol. 2017;208(3):495-504.5.Moore AJE, Wachsmann J, Chamarthy MR, Panjikaran L, Tanabe Y, Rajiah P. Imaging of acute pulmonary embolism: an update. Cardiovasc Diagn Ther. 2018;8(3):225-43.6.Kline JA. Diagnosis and Exclusion of Pulmonary Embolism. Thromb Res. 2018;163:207-20.7.Raju S, Ghosh S, Mehta AC. Chest CT Signs in Pulmonary Disease: A Pictorial Review. Chest. 2017;151(6):1356-74.8.Lyhne MD, Schultz JG, MacMahon PJ, Haddad F, Kalra M, Tso DM, et al. Septal bowing and pulmonary artery diameter on computed tomography pulmonary angiography are associated with short-term outcomes in patients with acute pulmonary embolism. Emerg Radiol. 2019;26(6):623-30.9.Beenen LFM, Bossuyt PMM, Stoker J, Middeldorp S. Prognostic value of cardiovascular parameters in computed tomography pulmonary angiography in patients with acute pulmonary embolism. Eur Respir J. 2018;52(1).10.Doherty S. Pulmonary embolism An update. Aust Fam Physician. 2017;46(11):816-20.11.Peiman S, Abbasi M, Allameh SF, Asadi Gharabaghi M, Abtahi H, Safavi E. Subsegmental pulmonary embolism: A narrative review. Thromb Res. 2016;138:55-60.12.Im DJ, Hur J, Han KH, Lee HJ, Kim YJ, Kwon W, et al. Acute Pulmonary Embolism: Retrospective Cohort Study of the Predictive Value of Perfusion Defect Volume Measured With Dual-Energy CT. AJR Am J Roentgenol. 2017;209(5):1015-22.13.Weidman EK, Plodkowski AJ, Halpenny DF, Hayes SA, Perez-Johnston R, Zheng J, et al. Dual-Energy CT Angiography for Detection of Pulmonary Emboli: Incremental Benefit of Iodine Maps. Radiology. 2018;289(2):546-53.14.Celtikci P, Hekimoglu K, Kahraman G, Bozbas S, Gultekin B, Akay HT. Diagnostic Impact of Quantitative Dual-Energy Computed Tomography Perfusion Imaging for the Assessment of Subsegmental Pulmonary Embolism. J Comput Assist Tomogr. 2021;45(1):151-6.15.O'Shea A, Parakh A, Hedgire S, Lee SI. Multisystem Assessment of the Imaging Manifestations of Coagulopathy in Hospitalized Patients With Coronavirus Disease (COVID-19). AJR Am J Roentgenol. 2021;216(4):1088-98.16.Patelli G, Paganoni S, Besana F, Codazzi F, Ronzoni M, Manini S, et al. Preliminary detection of lung hypoperfusion in discharged Covid-19 patients during recovery. Eur J Radiol. 2020;129:109121.17.Poyiadji N, Cormier P, Patel PY, Hadied MO, Bhargava P, Khanna K, et al. Acute Pulmonary Embolism and COVID-19. Radiology. 2020;297(3):E335-E8.18.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021:204522.19.Hammer MM, Raptis CA. COVID-19 and Pulmonary Thromboembolism. Radiology. 2021;299(2):E252.20.Suh YJ, Hong H, Ohana M, Bompard F, Revel MP, Valle C, et al. Pulmonary Embolism and Deep Vein Thrombosis in COVID-19: A Systematic Review and Meta-Analysis. Radiology. 2021;298(2):E70-E80.21.Woodard PK. Pulmonary Thromboembolism in COVID-19. Radiology. 2021;298(2):E107-E8.22.Valle C, Bonaffini PA, Dal Corso M, Mercanzin E, Franco PN, Sonzogni A, et al. Association between pulmonary embolism and COVID-19 severe pneumonia: Experience from two centers in the core of the infection Italian peak. Eur J Radiol. 2021;137:109613.23.Ooi MWX, Rajai A, Patel R, Gerova N, Godhamgaonkar V, Liong SY. Pulmonary thromboembolic disease in COVID-19 patients on CT pulmonary angiography - Prevalence, pattern of disease and relationship to D-dimer. Eur J Radiol. 2020;132:109336.
Referências1.Sista AK, Kuo WT, Schiebler M, Madoff DC. Stratification, Imaging, and Management of Acute Massive and Submassive Pulmonary Embolism. Radiology. 2017;284(1):5-24.2.Konstantinides SV, Meyer G, Becattini C, Bueno H, Geersing GJ, Harjola VP, et al. 2019 ESC Guidelines for the diagnosis and management of acute pulmonary embolism developed in collaboration with the European Respiratory Society (ERS). Eur Heart J. 2020;41(4):543-603.3.Essien EO, Rali P, Mathai SC. Pulmonary Embolism. Med Clin North Am. 2019;103(3):549-64.4.Albrecht MH, Bickford MW, Nance JW, Jr., Zhang L, De Cecco CN, Wichmann JL, et al. State-of-the-Art Pulmonary CT Angiography for Acute Pulmonary Embolism. AJR Am J Roentgenol. 2017;208(3):495-504.5.Moore AJE, Wachsmann J, Chamarthy MR, Panjikaran L, Tanabe Y, Rajiah P. Imaging of acute pulmonary embolism: an update. Cardiovasc Diagn Ther. 2018;8(3):225-43.6.Kline JA. Diagnosis and Exclusion of Pulmonary Embolism. Thromb Res. 2018;163:207-20.7.Raju S, Ghosh S, Mehta AC. Chest CT Signs in Pulmonary Disease: A Pictorial Review. Chest. 2017;151(6):1356-74.8.Lyhne MD, Schultz JG, MacMahon PJ, Haddad F, Kalra M, Tso DM, et al. Septal bowing and pulmonary artery diameter on computed tomography pulmonary angiography are associated with short-term outcomes in patients with acute pulmonary embolism. Emerg Radiol. 2019;26(6):623-30.9.Beenen LFM, Bossuyt PMM, Stoker J, Middeldorp S. Prognostic value of cardiovascular parameters in computed tomography pulmonary angiography in patients with acute pulmonary embolism. Eur Respir J. 2018;52(1).10.Doherty S. Pulmonary embolism An update. Aust Fam Physician. 2017;46(11):816-20.11.Peiman S, Abbasi M, Allameh SF, Asadi Gharabaghi M, Abtahi H, Safavi E. Subsegmental pulmonary embolism: A narrative review. Thromb Res. 2016;138:55-60.12.Im DJ, Hur J, Han KH, Lee HJ, Kim YJ, Kwon W, et al. Acute Pulmonary Embolism: Retrospective Cohort Study of the Predictive Value of Perfusion Defect Volume Measured With Dual-Energy CT. AJR Am J Roentgenol. 2017;209(5):1015-22.13.Weidman EK, Plodkowski AJ, Halpenny DF, Hayes SA, Perez-Johnston R, Zheng J, et al. Dual-Energy CT Angiography for Detection of Pulmonary Emboli: Incremental Benefit of Iodine Maps. Radiology. 2018;289(2):546-53.14.Celtikci P, Hekimoglu K, Kahraman G, Bozbas S, Gultekin B, Akay HT. Diagnostic Impact of Quantitative Dual-Energy Computed Tomography Perfusion Imaging for the Assessment of Subsegmental Pulmonary Embolism. J Comput Assist Tomogr. 2021;45(1):151-6.15.O'Shea A, Parakh A, Hedgire S, Lee SI. Multisystem Assessment of the Imaging Manifestations of Coagulopathy in Hospitalized Patients With Coronavirus Disease (COVID-19). AJR Am J Roentgenol. 2021;216(4):1088-98.16.Patelli G, Paganoni S, Besana F, Codazzi F, Ronzoni M, Manini S, et al. Preliminary detection of lung hypoperfusion in discharged Covid-19 patients during recovery. Eur J Radiol. 2020;129:109121.17.Poyiadji N, Cormier P, Patel PY, Hadied MO, Bhargava P, Khanna K, et al. Acute Pulmonary Embolism and COVID-19. Radiology. 2020;297(3):E335-E8.18.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021:204522.19.Hammer MM, Raptis CA. COVID-19 and Pulmonary Thromboembolism. Radiology. 2021;299(2):E252.20.Suh YJ, Hong H, Ohana M, Bompard F, Revel MP, Valle C, et al. Pulmonary Embolism and Deep Vein Thrombosis in COVID-19: A Systematic Review and Meta-Analysis. Radiology. 2021;298(2):E70-E80.21.Woodard PK. Pulmonary Thromboembolism in COVID-19. Radiology. 2021;298(2):E107-E8.22.Valle C, Bonaffini PA, Dal Corso M, Mercanzin E, Franco PN, Sonzogni A, et al. Association between pulmonary embolism and COVID-19 severe pneumonia: Experience from two centers in the core of the infection Italian peak. Eur J Radiol. 2021;137:109613.23.Ooi MWX, Rajai A, Patel R, Gerova N, Godhamgaonkar V, Liong SY. Pulmonary thromboembolic disease in COVID-19 patients on CT pulmonary angiography - Prevalence, pattern of disease and relationship to D-dimer. Eur J Radiol. 2020;132:109336.
Referências1.Sista AK, Kuo WT, Schiebler M, Madoff DC. Stratification, Imaging, and Management of Acute Massive and Submassive Pulmonary Embolism. Radiology. 2017;284(1):5-24.2.Konstantinides SV, Meyer G, Becattini C, Bueno H, Geersing GJ, Harjola VP, et al. 2019 ESC Guidelines for the diagnosis and management of acute pulmonary embolism developed in collaboration with the European Respiratory Society (ERS). Eur Heart J. 2020;41(4):543-603.3.Essien EO, Rali P, Mathai SC. Pulmonary Embolism. Med Clin North Am. 2019;103(3):549-64.4.Albrecht MH, Bickford MW, Nance JW, Jr., Zhang L, De Cecco CN, Wichmann JL, et al. State-of-the-Art Pulmonary CT Angiography for Acute Pulmonary Embolism. AJR Am J Roentgenol. 2017;208(3):495-504.5.Moore AJE, Wachsmann J, Chamarthy MR, Panjikaran L, Tanabe Y, Rajiah P. Imaging of acute pulmonary embolism: an update. Cardiovasc Diagn Ther. 2018;8(3):225-43.6.Kline JA. Diagnosis and Exclusion of Pulmonary Embolism. Thromb Res. 2018;163:207-20.7.Raju S, Ghosh S, Mehta AC. Chest CT Signs in Pulmonary Disease: A Pictorial Review. Chest. 2017;151(6):1356-74.8.Lyhne MD, Schultz JG, MacMahon PJ, Haddad F, Kalra M, Tso DM, et al. Septal bowing and pulmonary artery diameter on computed tomography pulmonary angiography are associated with short-term outcomes in patients with acute pulmonary embolism. Emerg Radiol. 2019;26(6):623-30.9.Beenen LFM, Bossuyt PMM, Stoker J, Middeldorp S. Prognostic value of cardiovascular parameters in computed tomography pulmonary angiography in patients with acute pulmonary embolism. Eur Respir J. 2018;52(1).10.Doherty S. Pulmonary embolism An update. Aust Fam Physician. 2017;46(11):816-20.11.Peiman S, Abbasi M, Allameh SF, Asadi Gharabaghi M, Abtahi H, Safavi E. Subsegmental pulmonary embolism: A narrative review. Thromb Res. 2016;138:55-60.12.Im DJ, Hur J, Han KH, Lee HJ, Kim YJ, Kwon W, et al. Acute Pulmonary Embolism: Retrospective Cohort Study of the Predictive Value of Perfusion Defect Volume Measured With Dual-Energy CT. AJR Am J Roentgenol. 2017;209(5):1015-22.13.Weidman EK, Plodkowski AJ, Halpenny DF, Hayes SA, Perez-Johnston R, Zheng J, et al. Dual-Energy CT Angiography for Detection of Pulmonary Emboli: Incremental Benefit of Iodine Maps. Radiology. 2018;289(2):546-53.14.Celtikci P, Hekimoglu K, Kahraman G, Bozbas S, Gultekin B, Akay HT. Diagnostic Impact of Quantitative Dual-Energy Computed Tomography Perfusion Imaging for the Assessment of Subsegmental Pulmonary Embolism. J Comput Assist Tomogr. 2021;45(1):151-6.15.O'Shea A, Parakh A, Hedgire S, Lee SI. Multisystem Assessment of the Imaging Manifestations of Coagulopathy in Hospitalized Patients With Coronavirus Disease (COVID-19). AJR Am J Roentgenol. 2021;216(4):1088-98.16.Patelli G, Paganoni S, Besana F, Codazzi F, Ronzoni M, Manini S, et al. Preliminary detection of lung hypoperfusion in discharged Covid-19 patients during recovery. Eur J Radiol. 2020;129:109121.17.Poyiadji N, Cormier P, Patel PY, Hadied MO, Bhargava P, Khanna K, et al. Acute Pulmonary Embolism and COVID-19. Radiology. 2020;297(3):E335-E8.18.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021:204522.19.Hammer MM, Raptis CA. COVID-19 and Pulmonary Thromboembolism. Radiology. 2021;299(2):E252.20.Suh YJ, Hong H, Ohana M, Bompard F, Revel MP, Valle C, et al. Pulmonary Embolism and Deep Vein Thrombosis in COVID-19: A Systematic Review and Meta-Analysis. Radiology. 2021;298(2):E70-E80.21.Woodard PK. Pulmonary Thromboembolism in COVID-19. Radiology. 2021;298(2):E107-E8.22.Valle C, Bonaffini PA, Dal Corso M, Mercanzin E, Franco PN, Sonzogni A, et al. Association between pulmonary embolism and COVID-19 severe pneumonia: Experience from two centers in the core of the infection Italian peak. Eur J Radiol. 2021;137:109613.23.Ooi MWX, Rajai A, Patel R, Gerova N, Godhamgaonkar V, Liong SY. Pulmonary thromboembolic disease in COVID-19 patients on CT pulmonary angiography - Prevalence, pattern of disease and relationship to D-dimer. Eur J Radiol. 2020;132:109336.
Referências1.Sista AK, Kuo WT, Schiebler M, Madoff DC. Stratification, Imaging, and Management of Acute Massive and Submassive Pulmonary Embolism. Radiology. 2017;284(1):5-24.2.Konstantinides SV, Meyer G, Becattini C, Bueno H, Geersing GJ, Harjola VP, et al. 2019 ESC Guidelines for the diagnosis and management of acute pulmonary embolism developed in collaboration with the European Respiratory Society (ERS). Eur Heart J. 2020;41(4):543-603.3.Essien EO, Rali P, Mathai SC. Pulmonary Embolism. Med Clin North Am. 2019;103(3):549-64.4.Albrecht MH, Bickford MW, Nance JW, Jr., Zhang L, De Cecco CN, Wichmann JL, et al. State-of-the-Art Pulmonary CT Angiography for Acute Pulmonary Embolism. AJR Am J Roentgenol. 2017;208(3):495-504.5.Moore AJE, Wachsmann J, Chamarthy MR, Panjikaran L, Tanabe Y, Rajiah P. Imaging of acute pulmonary embolism: an update. Cardiovasc Diagn Ther. 2018;8(3):225-43.6.Kline JA. Diagnosis and Exclusion of Pulmonary Embolism. Thromb Res. 2018;163:207-20.7.Raju S, Ghosh S, Mehta AC. Chest CT Signs in Pulmonary Disease: A Pictorial Review. Chest. 2017;151(6):1356-74.8.Lyhne MD, Schultz JG, MacMahon PJ, Haddad F, Kalra M, Tso DM, et al. Septal bowing and pulmonary artery diameter on computed tomography pulmonary angiography are associated with short-term outcomes in patients with acute pulmonary embolism. Emerg Radiol. 2019;26(6):623-30.9.Beenen LFM, Bossuyt PMM, Stoker J, Middeldorp S. Prognostic value of cardiovascular parameters in computed tomography pulmonary angiography in patients with acute pulmonary embolism. Eur Respir J. 2018;52(1).10.Doherty S. Pulmonary embolism An update. Aust Fam Physician. 2017;46(11):816-20.11.Peiman S, Abbasi M, Allameh SF, Asadi Gharabaghi M, Abtahi H, Safavi E. Subsegmental pulmonary embolism: A narrative review. Thromb Res. 2016;138:55-60.12.Im DJ, Hur J, Han KH, Lee HJ, Kim YJ, Kwon W, et al. Acute Pulmonary Embolism: Retrospective Cohort Study of the Predictive Value of Perfusion Defect Volume Measured With Dual-Energy CT. AJR Am J Roentgenol. 2017;209(5):1015-22.13.Weidman EK, Plodkowski AJ, Halpenny DF, Hayes SA, Perez-Johnston R, Zheng J, et al. Dual-Energy CT Angiography for Detection of Pulmonary Emboli: Incremental Benefit of Iodine Maps. Radiology. 2018;289(2):546-53.14.Celtikci P, Hekimoglu K, Kahraman G, Bozbas S, Gultekin B, Akay HT. Diagnostic Impact of Quantitative Dual-Energy Computed Tomography Perfusion Imaging for the Assessment of Subsegmental Pulmonary Embolism. J Comput Assist Tomogr. 2021;45(1):151-6.15.O'Shea A, Parakh A, Hedgire S, Lee SI. Multisystem Assessment of the Imaging Manifestations of Coagulopathy in Hospitalized Patients With Coronavirus Disease (COVID-19). AJR Am J Roentgenol. 2021;216(4):1088-98.16.Patelli G, Paganoni S, Besana F, Codazzi F, Ronzoni M, Manini S, et al. Preliminary detection of lung hypoperfusion in discharged Covid-19 patients during recovery. Eur J Radiol. 2020;129:109121.17.Poyiadji N, Cormier P, Patel PY, Hadied MO, Bhargava P, Khanna K, et al. Acute Pulmonary Embolism and COVID-19. Radiology. 2020;297(3):E335-E8.18.Kanne JP, Bai H, Bernheim A, Chung M, Haramati LB, Kallmes DF, et al. COVID-19 Imaging: What We Know Now and What Remains Unknown. Radiology. 2021:204522.19.Hammer MM, Raptis CA. COVID-19 and Pulmonary Thromboembolism. Radiology. 2021;299(2):E252.20.Suh YJ, Hong H, Ohana M, Bompard F, Revel MP, Valle C, et al. Pulmonary Embolism and Deep Vein Thrombosis in COVID-19: A Systematic Review and Meta-Analysis. Radiology. 2021;298(2):E70-E80.21.Woodard PK. Pulmonary Thromboembolism in COVID-19. Radiology. 2021;298(2):E107-E8.22.Valle C, Bonaffini PA, Dal Corso M, Mercanzin E, Franco PN, Sonzogni A, et al. Association between pulmonary embolism and COVID-19 severe pneumonia: Experience from two centers in the core of the infection Italian peak. Eur J Radiol. 2021;137:109613.23.Ooi MWX, Rajai A, Patel R, Gerova N, Godhamgaonkar V, Liong SY. Pulmonary thromboembolic disease in COVID-19 patients on CT pulmonary angiography - Prevalence, pattern of disease and relationship to D-dimer. Eur J Radiol. 2020;132:109336.
Reference1.Correa-de-Castro B, Pompilio MA, Odashiro DN, Odashiro M, Arao-Filho A, Paniago AM. Unifocal bone paracoccidioidomycosis, Brazil. Am J Trop Med Hyg. 2012;86(3):470-3.2.Franco FL, Niemeyer B, Marchiori E. Bone involvement in paracoccidioidomycosis. Rev Soc Bras Med Trop. 2019;52.3.Monsignore LM, Martinez R, Simao MN, Teixeira SR, Elias J, Jr., Nogueira-Barbosa MH. Radiologic findings of osteoarticular infection in paracoccidioidomycosis. Skeletal Radiol. 2012;41(2):203-8.4.Amstalden EM, Xavier R, Kattapuram SV, Bertolo MB, Swartz MN, Rosenberg AE. Paracoccidioidomycosis of bones and joints. A clinical, radiologic, and pathologic study of 9 cases. Medicine (Baltimore). 1996;75(4):213-25.5.Martins PAG, Rodrigues RS, Barreto MM. Involvement of bone in disseminated paracoccidioidomycosis. Rev Soc Bras Med Trop. 2021;54.6.de Freitas RS, Dantas KC, Garcia RS, Magri MM, de Andrade HF, Jr. Paracoccidioides brasiliensis causing a rib lesion in an adult AIDS patient. Hum Pathol. 2010;41(9):1350-4.7.Rosa Junior M, Baldon IV, Amorim AFC, Fonseca APA, Volpato R, Lourenco RB, et al. Imaging paracoccidioidomycosis: A pictorial review from head to toe. Eur J Radiol. 2018;103:147-62.8.Costa MAB, Carvalho TN, Araújo Junior, CRA, Borba AOC, Veloso GA, Texeira KSS. Manifestastações extrapulmonares da paracoccidioidomicose. Radiol Bras. 2005;38(1):45-52.9.Trad H., Trad CS, Elias Junior J, Muglia VF. Revisão Radiológica de 173 casos consecutivos de paracoccidioidomicose. Radiol Bras. 2005;39(3):175-9.
Referências1.Correa-de-Castro B, Pompilio MA, Odashiro DN, Odashiro M, Arao-Filho A, Paniago AM. Unifocal bone paracoccidioidomycosis, Brazil. Am J Trop Med Hyg. 2012;86(3):470-3.2.Franco FL, Niemeyer B, Marchiori E. Bone involvement in paracoccidioidomycosis. Rev Soc Bras Med Trop. 2019;52.3.Monsignore LM, Martinez R, Simao MN, Teixeira SR, Elias J, Jr., Nogueira-Barbosa MH. Radiologic findings of osteoarticular infection in paracoccidioidomycosis. Skeletal Radiol. 2012;41(2):203-8.4.Amstalden EM, Xavier R, Kattapuram SV, Bertolo MB, Swartz MN, Rosenberg AE. Paracoccidioidomycosis of bones and joints. A clinical, radiologic, and pathologic study of 9 cases. Medicine (Baltimore). 1996;75(4):213-25.5.Martins PAG, Rodrigues RS, Barreto MM. Involvement of bone in disseminated paracoccidioidomycosis. Rev Soc Bras Med Trop. 2021;54.6.de Freitas RS, Dantas KC, Garcia RS, Magri MM, de Andrade HF, Jr. Paracoccidioides brasiliensis causing a rib lesion in an adult AIDS patient. Hum Pathol. 2010;41(9):1350-4.7.Rosa Junior M, Baldon IV, Amorim AFC, Fonseca APA, Volpato R, Lourenco RB, et al. Imaging paracoccidioidomycosis: A pictorial review from head to toe. Eur J Radiol. 2018;103:147-62.8.Costa MAB, Carvalho TN, Araújo Junior, CRA, Borba AOC, Veloso GA, Texeira KSS. Manifestastações extrapulmonares da paracoccidioidomicose. Radiol Bras. 2005;38(1):45-52.9.Trad H., Trad CS, Elias Junior J, Muglia VF. Revisão Radiológica de 173 casos consecutivos de paracoccidioidomicose. Radiol Bras. 2005;39(3):175-9.
REFERÊNCIAS1.Ko JP, Girvin F, Moore W, Naidich DP. Approach to Peribronchovascular Disease on CT. Semin Ultrasound CT MR. 2019;40(3):187-99.2.C. G. Pulmonary involvement in acquired immunodeficiency syndrome-associated Kaposi's sarcoma: a descriptive analysis of thin-section manifestations in 29 patients. Quant Imaging Med Surg. 2021;11(2):714-24.3.Restrepo CS, Ocazionez D. Kaposi's sarcoma: imaging overview. Semin Ultrasound CT MR. 2011;32(5):456-69.4.Gasparetto TD, Marchiori E, Lourenco S, Zanetti G, Vianna AD, Santos AA, et al. Pulmonary involvement in Kaposi sarcoma: correlation between imaging and pathology. Orphanet J Rare Dis. 2009;4:18.5.Chou SH, Prabhu SJ, Crothers K, Stern EJ, Godwin JD, Pipavath SN. Thoracic diseases associated with HIV infection in the era of antiretroviral therapy: clinical and imaging findings. Radiographics. 2014;34(4):895-911.6.Godoy MC, Rouse H, Brown JA, Phillips P, Forrest DM, Muller NL. Imaging features of pulmonary Kaposi sarcoma-associated immune reconstitution syndrome. AJR Am J Roentgenol. 2007;189(4):956-65.7.Bhatia K, Ellis S. Unusual lung tumours: an illustrated review of CT features suggestive of this diagnosis. Cancer Imaging. 2006;6:72-82.8.D. OM. Imaging Techniques for Kaposi Sarcoma (KS). J HIV Ther 2008;13(3):65-71.9.da Silva Filho FP, Marchiori E, Valiante PM, Escuissato DL, Gasparetto TD. AIDS-related Kaposi sarcoma of the lung presenting with a "crazy-paving" pattern on high-resolution CT: imaging and pathologic findings. J Thorac Imaging. 2008;23(2):135-7.
Referências:1.Hare SS, Souza CA, Bain G, Seely JM, Frcpc, Gomes MM, et al. The radiological spectrum of pulmonary lymphoproliferative disease. Br J Radiol. 2012;85(1015):848-64.2.Carter BW, Wu CC, Khorashadi L, Godoy MC, de Groot PM, Abbott GF, et al. Multimodality imaging of cardiothoracic lymphoma. Eur J Radiol. 2014;83(8):1470-82.3.Bligh MP, Borgaonkar JN, Burrell SC, MacDonald DA, Manos D. Spectrum of CT Findings in Thoracic Extranodal Non-Hodgkin Lymphoma. Radiographics. 2017;37(2):439-61.4.Sharma A, Fidias P, Hayman LA, Loomis SL, Taber KH, Aquino SL. Patterns of lymphadenopathy in thoracic malignancies. Radiographics. 2004;24(2):419-34.5.Restrepo CS, Carrillo J, Rosado de Christenson M, Ojeda Leon P, Lucia Rivera A, Koss MN. Lymphoproliferative lung disorders: a radiologic-pathologic overview. Part II: Neoplastic disorders. Semin Ultrasound CT MR. 2013;34(6):535-49.6.Cozzi D, Dini C, Mungai F, Puccini B, Rigacci L, Miele V. Primary pulmonary lymphoma: imaging findings in 30 cases. Radiol Med. 2019;124(12):1262-9.7.Lee WK, Duddalwar VA, Rouse HC, Lau EW, Bekhit E, Hennessy OF. Extranodal lymphoma in the thorax: cross-sectional imaging findings. Clin Radiol. 2009;64(5):542-9.8.Johnson SA, Kumar A, Matasar MJ, Schoder H, Rademaker J. Imaging for Staging and Response Assessment in Lymphoma. Radiology. 2015;276(2):323-38.9.He H, Tan F, Xue Q, Liu L, Peng Y, Bai G, et al. Clinicopathological characteristics and prognostic factors of primary pulmonary lymphoma. J Thorac Dis. 2021;13(2):1106-17.10.Deng W, Wan Y, Yu JQ. Pulmonary MALT Lymphoma has variable features on CT. Sci Rep. 2019;9(1):8657.
Referências:1.Hare SS, Souza CA, Bain G, Seely JM, Frcpc, Gomes MM, et al. The radiological spectrum of pulmonary lymphoproliferative disease. Br J Radiol. 2012;85(1015):848-64.2.Carter BW, Wu CC, Khorashadi L, Godoy MC, de Groot PM, Abbott GF, et al. Multimodality imaging of cardiothoracic lymphoma. Eur J Radiol. 2014;83(8):1470-82.3.Bligh MP, Borgaonkar JN, Burrell SC, MacDonald DA, Manos D. Spectrum of CT Findings in Thoracic Extranodal Non-Hodgkin Lymphoma. Radiographics. 2017;37(2):439-61.4.Sharma A, Fidias P, Hayman LA, Loomis SL, Taber KH, Aquino SL. Patterns of lymphadenopathy in thoracic malignancies. Radiographics. 2004;24(2):419-34.5.Restrepo CS, Carrillo J, Rosado de Christenson M, Ojeda Leon P, Lucia Rivera A, Koss MN. Lymphoproliferative lung disorders: a radiologic-pathologic overview. Part II: Neoplastic disorders. Semin Ultrasound CT MR. 2013;34(6):535-49.6.Cozzi D, Dini C, Mungai F, Puccini B, Rigacci L, Miele V. Primary pulmonary lymphoma: imaging findings in 30 cases. Radiol Med. 2019;124(12):1262-9.7.Lee WK, Duddalwar VA, Rouse HC, Lau EW, Bekhit E, Hennessy OF. Extranodal lymphoma in the thorax: cross-sectional imaging findings. Clin Radiol. 2009;64(5):542-9.8.Johnson SA, Kumar A, Matasar MJ, Schoder H, Rademaker J. Imaging for Staging and Response Assessment in Lymphoma. Radiology. 2015;276(2):323-38.9.He H, Tan F, Xue Q, Liu L, Peng Y, Bai G, et al. Clinicopathological characteristics and prognostic factors of primary pulmonary lymphoma. J Thorac Dis. 2021;13(2):1106-17.10.Deng W, Wan Y, Yu JQ. Pulmonary MALT Lymphoma has variable features on CT. Sci Rep. 2019;9(1):8657.
REFERENCES 1.Kulshreshtha R, Singh R, Sinha J, Hall S. Anatomy of the distal biceps brachii tendon and its clinical relevance. Clin Orthop Relat Res. 2007;456:117-20.2.Eames MH, Bain GI, Fogg QA, van Riet RP. Distal biceps tendon anatomy: a cadaveric study. J Bone Joint Surg Am. 2007;89(5):1044-9.3.Athwal GS, Steinmann SP, Rispoli DM. The distal biceps tendon: footprint and relevant clinical anatomy. J Hand Surg Am. 2007;32(8):1225-9.4.Konschake M, Stofferin H, Moriggl B. Ultrasound visualization of an underestimated structure: the bicipital aponeurosis. Surg Radiol Anat. 2017;39(12):1317-22.5.Snoeck O, Lefevre P, Sprio E, Beslay R, Feipel V, Rooze M, et al. The lacertus fibrosus of the biceps brachii muscle: an anatomical study. Surg Radiol Anat. 2014;36(7):713-9.6.Negrao JR, Mogami R, Ramirez Ruiz FA, Wagner FV, Haghighi P, Ward SR, et al. Distal insertional anatomy of the triceps brachii muscle: MRI assessment in cadaveric specimens employing histologic correlation and Play-doh((R)) models of the anatomic findings. Skeletal Radiol. 2020;49(7):1057-67.7.Arrigoni P. Distal Biceps Brachii Injury: Springer; 2018.8.Blasi M, De la Fuente J, Perez-Bellmunt A, Zabalza O, Martinez S, Casasayas O, et al. High-resolution ultrasound in the assessment of the distal biceps brachii tendinous complex. Skeletal Radiol. 2019;48(3):395-404.9.Mazzocca AD, Cohen M, Berkson E, Nicholson G, Carofino BC, Arciero R, et al. The anatomy of the bicipital tuberosity and distal biceps tendon. J Shoulder Elbow Surg. 2007;16(1):122-7.10.Schmidt CC, Savoie FH, 3rd, Steinmann SP, Hausman M, Voloshin I, Morrey BF, et al. Distal biceps tendon history, updates, and controversies: from the closed American Shoulder and Elbow Surgeons meeting-2015. J Shoulder Elbow Surg. 2016;25(10):1717-30.11.de la Fuente J, Blasi M, Martinez S, Barcelo P, Cachan C, Miguel M, et al. Ultrasound classification of traumatic distal biceps brachii tendon injuries. Skeletal Radiol. 2018;47(4):519-32.12.Williams BD, Schweitzer ME, Weishaupt D, Lerman J, Rubenstein DL, Miller LS, et al. Partial tears of the distal biceps tendon: MR appearance and associated clinical findings. Skeletal Radiol. 2001;30(10):560-4.13.A. B. Varia: Distal Biceps Tendon Rupture: Springer; 2019.14.Chew ML, Giuffre BM. Disorders of the distal biceps brachii tendon. Radiographics. 2005;25(5):1227-37.15.Wenzke DR. MR imaging of the elbow in the injured athlete. Radiol Clin North Am. 2013;51(2):195-213.16.Festa A, Mulieri PJ, Newman JS, Spitz DJ, Leslie BM. Effectiveness of magnetic resonance imaging in detecting partial and complete distal biceps tendon rupture. J Hand Surg Am. 2010;35(1):77-83.17.Lobo Lda G, Fessell DP, Miller BS, Kelly A, Lee JY, Brandon C, et al. The role of sonography in differentiating full versus partial distal biceps tendon tears: correlation with surgical findings. AJR Am J Roentgenol. 2013;200(1):158-62.18.Giuffre BM, Lisle DA. Tear of the distal biceps branchii tendon: a new method of ultrasound evaluation. Australas Radiol. 2005;49(5):404-6.19.Midtgaard KS, Hallgren HB, Franlund K, Gidmark F, Soreide E, Johansson T, et al. An intact lacertus fibrosus improves strength after reinsertion of the distal biceps tendon. Knee Surg Sports Traumatol Arthrosc. 2020;28(7):2279-84.
REFERENCES 1.Kulshreshtha R, Singh R, Sinha J, Hall S. Anatomy of the distal biceps brachii tendon and its clinical relevance. Clin Orthop Relat Res. 2007;456:117-20.2.Eames MH, Bain GI, Fogg QA, van Riet RP. Distal biceps tendon anatomy: a cadaveric study. J Bone Joint Surg Am. 2007;89(5):1044-9.3.Athwal GS, Steinmann SP, Rispoli DM. The distal biceps tendon: footprint and relevant clinical anatomy. J Hand Surg Am. 2007;32(8):1225-9.4.Konschake M, Stofferin H, Moriggl B. Ultrasound visualization of an underestimated structure: the bicipital aponeurosis. Surg Radiol Anat. 2017;39(12):1317-22.5.Snoeck O, Lefevre P, Sprio E, Beslay R, Feipel V, Rooze M, et al. The lacertus fibrosus of the biceps brachii muscle: an anatomical study. Surg Radiol Anat. 2014;36(7):713-9.6.Negrao JR, Mogami R, Ramirez Ruiz FA, Wagner FV, Haghighi P, Ward SR, et al. Distal insertional anatomy of the triceps brachii muscle: MRI assessment in cadaveric specimens employing histologic correlation and Play-doh((R)) models of the anatomic findings. Skeletal Radiol. 2020;49(7):1057-67.7.Arrigoni P. Distal Biceps Brachii Injury: Springer; 2018.8.Blasi M, De la Fuente J, Perez-Bellmunt A, Zabalza O, Martinez S, Casasayas O, et al. High-resolution ultrasound in the assessment of the distal biceps brachii tendinous complex. Skeletal Radiol. 2019;48(3):395-404.9.Mazzocca AD, Cohen M, Berkson E, Nicholson G, Carofino BC, Arciero R, et al. The anatomy of the bicipital tuberosity and distal biceps tendon. J Shoulder Elbow Surg. 2007;16(1):122-7.10.Schmidt CC, Savoie FH, 3rd, Steinmann SP, Hausman M, Voloshin I, Morrey BF, et al. Distal biceps tendon history, updates, and controversies: from the closed American Shoulder and Elbow Surgeons meeting-2015. J Shoulder Elbow Surg. 2016;25(10):1717-30.11.de la Fuente J, Blasi M, Martinez S, Barcelo P, Cachan C, Miguel M, et al. Ultrasound classification of traumatic distal biceps brachii tendon injuries. Skeletal Radiol. 2018;47(4):519-32.12.Williams BD, Schweitzer ME, Weishaupt D, Lerman J, Rubenstein DL, Miller LS, et al. Partial tears of the distal biceps tendon: MR appearance and associated clinical findings. Skeletal Radiol. 2001;30(10):560-4.13.A. B. Varia: Distal Biceps Tendon Rupture: Springer; 2019.14.Chew ML, Giuffre BM. Disorders of the distal biceps brachii tendon. Radiographics. 2005;25(5):1227-37.15.Wenzke DR. MR imaging of the elbow in the injured athlete. Radiol Clin North Am. 2013;51(2):195-213.16.Festa A, Mulieri PJ, Newman JS, Spitz DJ, Leslie BM. Effectiveness of magnetic resonance imaging in detecting partial and complete distal biceps tendon rupture. J Hand Surg Am. 2010;35(1):77-83.17.Lobo Lda G, Fessell DP, Miller BS, Kelly A, Lee JY, Brandon C, et al. The role of sonography in differentiating full versus partial distal biceps tendon tears: correlation with surgical findings. AJR Am J Roentgenol. 2013;200(1):158-62.18.Giuffre BM, Lisle DA. Tear of the distal biceps branchii tendon: a new method of ultrasound evaluation. Australas Radiol. 2005;49(5):404-6.19.Midtgaard KS, Hallgren HB, Franlund K, Gidmark F, Soreide E, Johansson T, et al. An intact lacertus fibrosus improves strength after reinsertion of the distal biceps tendon. Knee Surg Sports Traumatol Arthrosc. 2020;28(7):2279-84.
REFERENCES 1.Kulshreshtha R, Singh R, Sinha J, Hall S. Anatomy of the distal biceps brachii tendon and its clinical relevance. Clin Orthop Relat Res. 2007;456:117-20.2.Eames MH, Bain GI, Fogg QA, van Riet RP. Distal biceps tendon anatomy: a cadaveric study. J Bone Joint Surg Am. 2007;89(5):1044-9.3.Athwal GS, Steinmann SP, Rispoli DM. The distal biceps tendon: footprint and relevant clinical anatomy. J Hand Surg Am. 2007;32(8):1225-9.4.Konschake M, Stofferin H, Moriggl B. Ultrasound visualization of an underestimated structure: the bicipital aponeurosis. Surg Radiol Anat. 2017;39(12):1317-22.5.Snoeck O, Lefevre P, Sprio E, Beslay R, Feipel V, Rooze M, et al. The lacertus fibrosus of the biceps brachii muscle: an anatomical study. Surg Radiol Anat. 2014;36(7):713-9.6.Negrao JR, Mogami R, Ramirez Ruiz FA, Wagner FV, Haghighi P, Ward SR, et al. Distal insertional anatomy of the triceps brachii muscle: MRI assessment in cadaveric specimens employing histologic correlation and Play-doh((R)) models of the anatomic findings. Skeletal Radiol. 2020;49(7):1057-67.7.Arrigoni P. Distal Biceps Brachii Injury: Springer; 2018.8.Blasi M, De la Fuente J, Perez-Bellmunt A, Zabalza O, Martinez S, Casasayas O, et al. High-resolution ultrasound in the assessment of the distal biceps brachii tendinous complex. Skeletal Radiol. 2019;48(3):395-404.9.Mazzocca AD, Cohen M, Berkson E, Nicholson G, Carofino BC, Arciero R, et al. The anatomy of the bicipital tuberosity and distal biceps tendon. J Shoulder Elbow Surg. 2007;16(1):122-7.10.Schmidt CC, Savoie FH, 3rd, Steinmann SP, Hausman M, Voloshin I, Morrey BF, et al. Distal biceps tendon history, updates, and controversies: from the closed American Shoulder and Elbow Surgeons meeting-2015. J Shoulder Elbow Surg. 2016;25(10):1717-30.11.de la Fuente J, Blasi M, Martinez S, Barcelo P, Cachan C, Miguel M, et al. Ultrasound classification of traumatic distal biceps brachii tendon injuries. Skeletal Radiol. 2018;47(4):519-32.12.Williams BD, Schweitzer ME, Weishaupt D, Lerman J, Rubenstein DL, Miller LS, et al. Partial tears of the distal biceps tendon: MR appearance and associated clinical findings. Skeletal Radiol. 2001;30(10):560-4.13.A. B. Varia: Distal Biceps Tendon Rupture: Springer; 2019.14.Chew ML, Giuffre BM. Disorders of the distal biceps brachii tendon. Radiographics. 2005;25(5):1227-37.15.Wenzke DR. MR imaging of the elbow in the injured athlete. Radiol Clin North Am. 2013;51(2):195-213.16.Festa A, Mulieri PJ, Newman JS, Spitz DJ, Leslie BM. Effectiveness of magnetic resonance imaging in detecting partial and complete distal biceps tendon rupture. J Hand Surg Am. 2010;35(1):77-83.17.Lobo Lda G, Fessell DP, Miller BS, Kelly A, Lee JY, Brandon C, et al. The role of sonography in differentiating full versus partial distal biceps tendon tears: correlation with surgical findings. AJR Am J Roentgenol. 2013;200(1):158-62.18.Giuffre BM, Lisle DA. Tear of the distal biceps branchii tendon: a new method of ultrasound evaluation. Australas Radiol. 2005;49(5):404-6.19.Midtgaard KS, Hallgren HB, Franlund K, Gidmark F, Soreide E, Johansson T, et al. An intact lacertus fibrosus improves strength after reinsertion of the distal biceps tendon. Knee Surg Sports Traumatol Arthrosc. 2020;28(7):2279-84.
Referências1.Alper F, Akgun M, Onbas O, Araz O. CT findings in silicosis due to denim sandblasting. Eur Radiol. 2008;18(12):2739-44.2.Jones CM, Pasricha SS, Heinze SB, MacDonald S. Silicosis in artificial stone workers: Spectrum of radiological high-resolution CT chest findings. J Med Imaging Radiat Oncol. 2020;64(2):241-9.3.Greenberg MI, Waksman J, Curtis J. Silicosis: a review. Dis Mon. 2007;53(8):394-416.4.Antao VC, Pinheiro GA, Terra-Filho M, Kavakama J, Muller NL. High-resolution CT in silicosis: correlation with radiographic findings and functional impairment. J Comput Assist Tomogr. 2005;29(3):350-6.5.Batra K, Aziz MU, Adams TN, Godwin JD. Imaging Of Occupational Lung Diseases. Semin Roentgenol. 2019;54(1):44-58.6.Cox CW, Rose CS, Lynch DA. State of the art: Imaging of occupational lung disease. Radiology. 2014;270(3):681-96.7.Chong S, Lee KS, Chung MJ, Han J, Kwon OJ, Kim TS. Pneumoconiosis: comparison of imaging and pathologic findings. Radiographics. 2006;26(1):59-77.8.Marchiori E, Ferreira A, Saez F, Gabetto JM, Souza AS, Jr., Escuissato DL, et al. Conglomerated masses of silicosis in sandblasters: high-resolution CT findings. Eur J Radiol. 2006;59(1):56-9.9.Kim KI, Kim CW, Lee MK, Lee KS, Park CK, Choi SJ, et al. Imaging of occupational lung disease. Radiographics. 2001;21(6):1371-91.10.Marchiori E, Souza CA, Barbassa TG, Escuissato DL, Gasparetto EL, Souza AS, Jr. Silicoproteinosis: high-resolution CT findings in 13 patients. AJR Am J Roentgenol. 2007;189(6):1402-6.11.Arakawa H, Honma K, Saito Y, Shida H, Morikubo H, Suganuma N, et al. Pleural disease in silicosis: pleural thickening, effusion, and invagination. Radiology. 2005;236(2):685-93.12.Lanzafame M, Vento S. Mini-review: Silico-tuberculosis. J Clin Tuberc Other Mycobact Dis. 2021;23:100218.13.Arakawa H, Gevenois PA, Saito Y, Shida H, De Maertelaer V, Morikubo H, et al. Silicosis: expiratory thin-section CT assessment of airway obstruction. Radiology. 2005;236(3):1059-66.14.Ooi GC, Tsang KW, Cheung TF, Khong PL, Ho IW, Ip MS, et al. Silicosis in 76 men: qualitative and quantitative CT evaluation--clinical-radiologic correlation study. Radiology. 2003;228(3):816-25.
Referências1.Alper F, Akgun M, Onbas O, Araz O. CT findings in silicosis due to denim sandblasting. Eur Radiol. 2008;18(12):2739-44.2.Jones CM, Pasricha SS, Heinze SB, MacDonald S. Silicosis in artificial stone workers: Spectrum of radiological high-resolution CT chest findings. J Med Imaging Radiat Oncol. 2020;64(2):241-9.3.Greenberg MI, Waksman J, Curtis J. Silicosis: a review. Dis Mon. 2007;53(8):394-416.4.Antao VC, Pinheiro GA, Terra-Filho M, Kavakama J, Muller NL. High-resolution CT in silicosis: correlation with radiographic findings and functional impairment. J Comput Assist Tomogr. 2005;29(3):350-6.5.Batra K, Aziz MU, Adams TN, Godwin JD. Imaging Of Occupational Lung Diseases. Semin Roentgenol. 2019;54(1):44-58.6.Cox CW, Rose CS, Lynch DA. State of the art: Imaging of occupational lung disease. Radiology. 2014;270(3):681-96.7.Chong S, Lee KS, Chung MJ, Han J, Kwon OJ, Kim TS. Pneumoconiosis: comparison of imaging and pathologic findings. Radiographics. 2006;26(1):59-77.8.Marchiori E, Ferreira A, Saez F, Gabetto JM, Souza AS, Jr., Escuissato DL, et al. Conglomerated masses of silicosis in sandblasters: high-resolution CT findings. Eur J Radiol. 2006;59(1):56-9.9.Kim KI, Kim CW, Lee MK, Lee KS, Park CK, Choi SJ, et al. Imaging of occupational lung disease. Radiographics. 2001;21(6):1371-91.10.Marchiori E, Souza CA, Barbassa TG, Escuissato DL, Gasparetto EL, Souza AS, Jr. Silicoproteinosis: high-resolution CT findings in 13 patients. AJR Am J Roentgenol. 2007;189(6):1402-6.11.Arakawa H, Honma K, Saito Y, Shida H, Morikubo H, Suganuma N, et al. Pleural disease in silicosis: pleural thickening, effusion, and invagination. Radiology. 2005;236(2):685-93.12.Lanzafame M, Vento S. Mini-review: Silico-tuberculosis. J Clin Tuberc Other Mycobact Dis. 2021;23:100218.13.Arakawa H, Gevenois PA, Saito Y, Shida H, De Maertelaer V, Morikubo H, et al. Silicosis: expiratory thin-section CT assessment of airway obstruction. Radiology. 2005;236(3):1059-66.14.Ooi GC, Tsang KW, Cheung TF, Khong PL, Ho IW, Ip MS, et al. Silicosis in 76 men: qualitative and quantitative CT evaluation--clinical-radiologic correlation study. Radiology. 2003;228(3):816-25.
Referências1.Mogami R, Marchiori E, Albuquerque HA, Ribeiro P, Capone D. Correlação entre Radiografia Convencional e Tomografia Computadorizada de Alta Resolução de Tórax em Trabalhadores da Indústria Têxtil do Asbesto. Rev Imagem 2001;23(4):233-8.2.Kim KI, Kim CW, Lee MK, Lee KS, Park CK, Choi SJ, et al. Imaging of occupational lung disease. Radiographics. 2001;21(6):1371-91.3.Oury T; Sporn TA; Roggli VL. Pathology of Asbestos-Associated Diseases. Third ed: Springer; 2014.4.Copley SJ, Wells AU, Sivakumaran P, Rubens MB, Lee YC, Desai SR, et al. Asbestosis and idiopathic pulmonary fibrosis: comparison of thin-section CT features. Radiology. 2003;229(3):731-6.5.Champlin J, Edwards R, Pipavath S. Imaging of Occupational Lung Disease. Radiol Clin North Am. 2016;54(6):1077-96.6.Walkoff L, Hobbs S. Chest Imaging in the Diagnosis of Occupational Lung Diseases. Clin Chest Med. 2020;41(4):581-603.7.Arakawa H, Kishimoto T, Ashizawa K, Kato K, Okamoto K, Honma K, et al. Asbestosis and other pulmonary fibrosis in asbestos-exposed workers: high-resolution CT features with pathological correlations. Eur Radiol. 2016;26(5):1485-92.8.Masanori A. Imaging diagnosis of classical and new pneumoconiosis: predominant reticular HRCT pattern. Insights Imaging. 2021;12(1):33.9.Norbet C, Joseph A, Rossi SS, Bhalla S, Gutierrez FR. Asbestos-related lung disease: a pictorial review. Curr Probl Diagn Radiol. 2015;44(4):371-82.10.Roach HD, Davies GJ, Attanoos R, Crane M, Adams H, Phillips S. Asbestos: when the dust settles an imaging review of asbestos-related disease. Radiographics. 2002;22 Spec No:S167-84.
Referências1.Mogami R, Marchiori E, Albuquerque HA, Ribeiro P, Capone D. Correlação entre Radiografia Convencional e Tomografia Computadorizada de Alta Resolução de Tórax em Trabalhadores da Indústria Têxtil do Asbesto. Rev Imagem 2001;23(4):233-8.2.Kim KI, Kim CW, Lee MK, Lee KS, Park CK, Choi SJ, et al. Imaging of occupational lung disease. Radiographics. 2001;21(6):1371-91.3.Oury T; Sporn TA; Roggli VL. Pathology of Asbestos-Associated Diseases. Third ed: Springer; 2014.4.Copley SJ, Wells AU, Sivakumaran P, Rubens MB, Lee YC, Desai SR, et al. Asbestosis and idiopathic pulmonary fibrosis: comparison of thin-section CT features. Radiology. 2003;229(3):731-6.5.Champlin J, Edwards R, Pipavath S. Imaging of Occupational Lung Disease. Radiol Clin North Am. 2016;54(6):1077-96.6.Walkoff L, Hobbs S. Chest Imaging in the Diagnosis of Occupational Lung Diseases. Clin Chest Med. 2020;41(4):581-603.7.Arakawa H, Kishimoto T, Ashizawa K, Kato K, Okamoto K, Honma K, et al. Asbestosis and other pulmonary fibrosis in asbestos-exposed workers: high-resolution CT features with pathological correlations. Eur Radiol. 2016;26(5):1485-92.8.Masanori A. Imaging diagnosis of classical and new pneumoconiosis: predominant reticular HRCT pattern. Insights Imaging. 2021;12(1):33.9.Norbet C, Joseph A, Rossi SS, Bhalla S, Gutierrez FR. Asbestos-related lung disease: a pictorial review. Curr Probl Diagn Radiol. 2015;44(4):371-82.10.Roach HD, Davies GJ, Attanoos R, Crane M, Adams H, Phillips S. Asbestos: when the dust settles an imaging review of asbestos-related disease. Radiographics. 2002;22 Spec No:S167-84.
REFERÊNCIAS1.Agarwal A, Chandra A, Jaipal U, Saini N. A panorama of radial nerve pathologies- an imaging diagnosis: a step ahead. Insights Imaging. 2018;9(6):1021-34.2.Esparza M, Wild JR, Minnock C, Mohty KM, Truchan LM, Taljanovic MS. Ultrasound Evaluation of Radial Nerve Palsy Associated with Humeral Shaft Fractures to Guide Operative Versus Non-Operative Treatment. Acta Med Acad. 2019;48(2):183-92.3.Rocchi M, Tarallo L, Mugnai R, Adani R. Humerus shaft fracture complicated by radial nerve palsy: Is surgical exploration necessary? Musculoskelet Surg. 2016;100(Suppl 1):53-60.4.Ljungquist KL, Martineau P, Allan C. Radial nerve injuries. J Hand Surg Am. 2015;40(1):166-72.5.Ostermann RC, Lang NW, Joestl J, Pauzenberger L, Tiefenboeck TM, Platzer P. Fractures of the Humeral Shaft with Primary Radial Nerve Palsy: Do Injury Mechanism, Fracture Type, or Treatment Influence Nerve Recovery? J Clin Med. 2019;8(11).6.Hendrickx LAM, Hilgersom NFJ, Alkaduhimi H, Doornberg JN, van den Bekerom MPJ. Radial nerve palsy associated with closed humeral shaft fractures: a systematic review of 1758 patients. Arch Orthop Trauma Surg. 2021;141(4):561-8.7.Cartwright MS, Chloros GD, Walker FO, Wiesler ER, Campbell WW. Diagnostic ultrasound for nerve transection. Muscle Nerve. 2007;35(6):796-9.
REFERÊNCIAS1.Wick MR. Hamartomas and other tumor-like malformations of the lungs and heart. Semin Diagn Pathol. 2019;36(1):2-10.2.Leiter Herran F, Restrepo CS, Alvarez Gomez DI, Suby-Long T, Ocazionez D, Vargas D. Hamartomas from head to toe: an imaging overview. Br J Radiol. 2017;90(1071):20160607.3.Ganti S, Milton R, Davidson L, Anikin V. Giant pulmonary hamartoma. J Cardiothorac Surg. 2006;1:19.4.Umashankar T, Devadas AK, Ravichandra G, Yaranal PJ. Pulmonary hamartoma: Cytological study of a case and literature review. J Cytol. 2012;29(4):261-3.5.Gaerte SC, Meyer CA, Winer-Muram HT, Tarver RD, Conces DJ, Jr. Fat-containing lesions of the chest. Radiographics. 2002;22 Spec No:S61-78.6.Suut S, Al-Ani Z, Allen C, Rajiah P, Durr ES, Al-Harbi A, et al. Pictorial essay of radiological features of benign intrathoracic masses. Ann Thorac Med. 2015;10(4):231-42.7.Nestor Müller ISM. Tórax. Rio de Janeiro: Elsevier; 2017.
Referências1.Silva CI, Muller NL, Hansell DM, Lee KS, Nicholson AG, Wells AU. Nonspecific interstitial pneumonia and idiopathic pulmonary fibrosis: changes in pattern and distribution of disease over time. Radiology. 2008;247(1):251-9.2.Oliveira DS, Araujo Filho JA, Paiva AFL, Ikari ES, Chate RC, Nomura CH. Idiopathic interstitial pneumonias: review of the latest American Thoracic Society/European Respiratory Society classification. Radiol Bras. 2018;51(5):321-7.3.Escalon JG, Legasto AC, Toy D, Gruden JF. Central paradiaphragmatic middle lobe involvement in nonspecific interstitial pneumonia. Eur Radiol. 2021.4.Kligerman SJ, Groshong S, Brown KK, Lynch DA. Nonspecific interstitial pneumonia: radiologic, clinical, and pathologic considerations. Radiographics. 2009;29(1):73-87.5.Belloli EA, Beckford R, Hadley R, Flaherty KR. Idiopathic non-specific interstitial pneumonia. Respirology. 2016;21(2):259-68.6.Oldham JM, Adegunsoye A, Valenzi E, Lee C, Witt L, Chen L, et al. Characterisation of patients with interstitial pneumonia with autoimmune features. Eur Respir J. 2016;47(6):1767-75.7.Hansell DM, Bankier AA, MacMahon H, McLoud TC, Muller NL, Remy J. Fleischner Society: glossary of terms for thoracic imaging. Radiology. 2008;246(3):697-722.8.Lee J, Kim YH, Kang JY, Jegal Y, Park SY, Korean Interstitial Lung Diseases Study G. Korean Guidelines for Diagnosis and Management of Interstitial Lung Diseases: Part 3. Idiopathic Nonspecific Interstitial Pneumonia. Tuberc Respir Dis (Seoul). 2019;82(4):277-84.9.Cottin V, Hirani NA, Hotchkin DL, Nambiar AM, Ogura T, Otaola M, et al. Presentation, diagnosis and clinical course of the spectrum of progressive-fibrosing interstitial lung diseases. Eur Respir Rev. 2018;27(150).10.Huo Z, Li J, Li S, Zhang H, Jin Z, Pang J, et al. Organizing pneumonia components in non-specific interstitial pneumonia (NSIP): a clinicopathological study of 33 NSIP cases. Histopathology. 2016;68(3):347-55.11.Perelas A, Silver RM, Arrossi AV, Highland KB. Systemic sclerosis-associated interstitial lung disease. Lancet Respir Med. 2020;8(3):304-20.
© 2020-2025 Ivy Podcast Discovery LLC
