In perfused rat hearts, endocardial levels of diastolic and systolic [Ca2+]i were higher than epicardial levels and rose to a greater degree during low-flow ischemia.
In perfused rat hearts, the endocardium exhibits higher baseline intracellular calcium levels and a greater increase during low-flow ischemia compared to the epicardium, indicating higher susceptibility to ischemia.
Transmural heterogeneity of myocardial metabolism and function are present in the left ventricle under normal and ischemic conditions. To determine if endocardial versus epicardial differences of Ca2+i are also present, perfused rat heart studies using indo-1 fluorescence as an index of Ca2+i were performed in the left ventricular epicardium and endocardium. Hearts were studied during control conditions and low-flow ischemia. Results demonstrated the following: 1) At a pacing rate of 1.5 Hz, endocardial levels of diastolic and systolic Ca2+i (470 +/- 40 and 1,240 +/- 170 nM) were higher than epicardial levels (290 +/- 30 and 920 +/- 150 nM). 2) At a more physiological pacing rate of 5 Hz, endocardial levels of diastolic and systolic Ca2+i (680 +/- 50 and 1,230 +/- 70 nM) were also higher than epicardial levels (390 +/- 20 and 950 +/- 60 nM. 3) During low-flow ischemia, endocardial levels of diastolic Ca2+i rose to a greater degree (from 680 +/- 50 to 1,050 +/- 70 nM at 10% of control coronary flow) compared with epicardial levels (from 390 +/- 20 to 580 +/- 40 nM at 10% of control flow), suggesting that the endocardium is more susceptible to low-flow ischemia. 4) The amplitude of the Ca2+i transient was the same at the endocardium (540 +/- 50 nM) and epicardium (560 +/- 50 nM) and did not change during low-flow ischemia, despite marked contractile dysfunction.(ABSTRACT TRUNCATED AT 250 WORDS)
Figueredo et al. (Sat,) conducted a other in Myocardial ischemia. Endocardial measurement vs. Epicardial measurement was evaluated on Intracellular free calcium ([Ca2+]i) levels. In perfused rat hearts, endocardial levels of diastolic and systolic [Ca2+]i were higher than epicardial levels and rose to a greater degree during low-flow ischemia.
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