K Lectures

J receptors --- Support this podcast: https://anchor.fm/kmeds/support

RBC Biochemistry --- Support this podcast: https://anchor.fm/kmeds/support

RBC Biochemistry I --- Support this podcast: https://anchor.fm/kmeds/support

Anemia --- Support this podcast: https://anchor.fm/kmeds/support

HbA1c --- Support this podcast: https://anchor.fm/kamesa-anota/support

HbA1c --- Support this podcast: https://anchor.fm/kamesa-anota/support

CN III - Internal and External Opthalmoplegia --- Support this podcast: https://anchor.fm/kamesa-anota/support

CN3-2 --- Support this podcast: https://anchor.fm/kamesa-anota/support

Oculomotor Nerve 1 --- Support this podcast: https://anchor.fm/kamesa-anota/support

Medulla Oblongata --- Support this podcast: https://anchor.fm/kamesa-anota/support

BrainStem Nuclei --- Support this podcast: https://anchor.fm/kamesa-anota/support

Diaphragmatic excursion --- Support this podcast: https://anchor.fm/kamesa-anota/support

Therapeutic index --- Support this podcast: https://anchor.fm/kamesa-anota/support

Ionization of drugs --- Support this podcast: https://anchor.fm/kamesa-anota/support

Volume Distribution of drugs --- Support this podcast: https://anchor.fm/kamesa-anota/support

Incidence vs Prevalence --- Support this podcast: https://anchor.fm/kamesa-anota/support

Incidence vs Prevalence --- Support this podcast: https://anchor.fm/kamesa-anota/support

Alcohol Metabolism --- Support this podcast: https://anchor.fm/kamesa-anota/support

Energy metabolism in hearty --- Support this podcast: https://anchor.fm/kamesa-anota/support

RTA types --- Support this podcast: https://anchor.fm/kamesa-anota/support

Strategy for solving Acid-Base Problems --- Support this podcast: https://anchor.fm/kamesa-anota/support

HMG-COA reductase regulation via phosphorylation and Dephosphorylation --- Support this podcast: https://anchor.fm/kamesa-anota/support

Cholesterol Synthesis Regulation| SREBP| SCAP | S1P | S2P| SRE --- Support this podcast: https://anchor.fm/kamesa-anota/support

Pathophysiology of Atherosclerosis --- Support this podcast: https://anchor.fm/kamesa-anota/support

CETP on HDL --- Support this podcast: https://anchor.fm/kamesa-anota/support

How LDL is formed --- Support this podcast: https://anchor.fm/kamesa-anota/support

Apoproteins --- Support this podcast: https://anchor.fm/kamesa-anota/support

Hormone sensitive Lipoprotein Lipase --- Support this podcast: https://anchor.fm/kamesa-anota/support

Lipoprotein Metabolism | Lipoprotein | Apo-protein| B48| B100| HDL| ApoE| ApoCII | VLDL| IDL| LDL | LCAT vs ACAT | Pancreatic lipase, hepatic triglyceride lipase, Chylomicron | SRB1 | ABC1| ABCG1| HDL3, HDL2, CETP| Apo-AI | --- Support this podcast: https://anchor.fm/kamesa-anota/support

How metabolic Acidosis causes Hyperkalemia. H+ enters all cells including Principal cells. K+ leaves principal cells and enters blood. Leading to Hyperkalemia. High K+ level is maintained by decreasing Na+—K+ ATPase and K+ channel activities. --- Support this podcast: https://anchor.fm/kamesa-anota/support

How Metabolic Alkalosis results in Hypokalemia | Principal Cells | Basolateral Na+- K+ ATpase | Luminal K+ channel. H+ move from principal cells into blood and K+ move from blood into principal cells and from principal cells into the urinary lumen. Eventual excretion! --- Support this podcast: https://anchor.fm/kamesa-anota/support

Principal cells | ADH| V2 receptors | Gs Pathway | Aquaporin-2 --- Support this podcast: https://anchor.fm/kamesa-anota/support

ENAC| K-wasting vs K-Sparing diuretics | Spironolactone | Aldosterone | Lumen Electropositivity --- Support this podcast: https://anchor.fm/kamesa-anota/support

Thiazides | NCC | PTH | Ca++ Reabsorption --- Support this podcast: https://anchor.fm/kamesa-anota/support

How Furosemide causes Alkalosis and urinary acidification --- Support this podcast: https://anchor.fm/kamesa-anota/support

NKCC2| Furosemide induced urinary acidification | Diuretics --- Support this podcast: https://anchor.fm/kamesa-anota/support

CA inhibitors in PCT- Acetazolamide --- Support this podcast: https://anchor.fm/kamesa-anota/support

Urea Cycle --- Support this podcast: https://anchor.fm/kamesa-anota/support

5 Causes of HYPOXEMIA --- Support this podcast: https://anchor.fm/kamesa-anota/support

Hyperventilation 2 --- Support this podcast: https://anchor.fm/kamesa-anota/support

Hyperventilation --- Support this podcast: https://anchor.fm/kamesa-anota/support

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Atrial receptors --- Support this podcast: https://anchor.fm/kamesa-anota/support

Baroreceptors --- Support this podcast: https://anchor.fm/kamesa-anota/support

Afterload and Leplace’s Law --- Support this podcast: https://anchor.fm/kamesa-anota/support

P-V loops ESPVR vs EDPVR curves in cardiomyopathies --- Support this podcast: https://anchor.fm/kamesa-anota/support

Digoxin Mechanism of Action --- Support this podcast: https://anchor.fm/kamesa-anota/support

Suprarenal Gland --- Support this podcast: https://anchor.fm/kamesa-anota/support

Cardiac Cycle --- Support this podcast: https://anchor.fm/kamesa-anota/support

How do PV loops change with increased preload, contractility and afterload? Cardiac output | PV loops | Frank-Starling Curve or principle --- Support this podcast: https://anchor.fm/kamesa-anota/support

Venous Return and Cardiac Output Curves --- Support this podcast: https://anchor.fm/kamesa-anota/support