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K 305 25 June 03. Cardiac Ischemia. local vs. global endocardial vs. transmural partial vs. total anoxia vs. ischemia ischemia – reperfusion injury. Cardiac Ischemia. Metabolic Effects ¯ b oxidation due to ¯ O 2 availability ¯ glucose oxidation increased glycolysis
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K 305 25 June 03
Cardiac Ischemia • local vs. global • endocardial vs. transmural • partial vs. total • anoxia vs. ischemia • ischemia – reperfusion injury
Cardiac Ischemia • Metabolic Effects • ¯ b oxidation due to ¯ O2 availability • ¯ glucose oxidation • increased glycolysis • increased glycogenolysis • ¯lactate oxidation- lactate production
Cardiac Ischemia • [K+]o • g of ATP-dependent K+ channels
Hallmarks of Ischemia • KATP channels • octamers • four pore forming a subunits • inward rectifier channels Kir 6.1 or Kir 6.2 • four regulatory b subunits • sulphonylurea receptors SUR1 or SUR2 • Different combinations of Kir and SUR subunits generate tissue-specific KATP channel subtypes
Cardiac Ischemia • [K+]o • g of ATP dependent K+ channels • activity of Na-K pump • gK causes Em (hyperpolarization) • AP duration - Ca influx - contractility • demand for MVO2 – cardioprotective • gK will lead to [K+]o - which depolarizes
Hallmarks of Ischemia (con’t) • increased [Ca2+]i - causing contracture • OFR damage - lipid peroxidation • mitochondrial swelling • Neutrophil accumulation
Contractile Dysfunction • Reversible • stunning • hibernation • Irreversible • necrosis • apoptosis
