Relationship between the high-energy phosphate content and various left ventricular functional parameters of the normal and hypertrophied heart after global ischemia and reperfusion.

Abstract

Using an isolated rat heart preparation (Langendorff perfusion, perfusion pressure 100 cm H2O) the correlation between the high-energy phosphate content and various left ventricular (lv) functional parameters of the hypertrophied heart (spontaneous hypertensive rats lv/body weight ratio 3.6 +/- 0.5 x 10(-3) was determined after normo- (30 min) and hypothermic (25 degrees C, 120 min) cardioplegic arrest and reperfusion, and compared with normal hearts (Wistar rats lv/body weight ratio 2.0 +/- 0.3 x 10(-3). St. Thomas Hospital solution was used as the cardioplegic agent. Before ischemia hypertrophied hearts had a significantly higher developed left ventricular pressure, pressure rate product and dp/dtmax, but a significantly lower ATP and total adenine nucleotide content. Irrespective of the mode and temperature of cardiac arrest there was a strong correlation both for normal and for hypertrophied hearts between the high-energy phosphate content expressed as ATP, total adenine nucleotides or the "energy charge" and the left ventricular functional parameters pressure rate product and dp/dtmax. The correlation coefficient ranged from 0.80 to 0.89 and was highest when the ATP content was plotted against pressure rate product (r = 0.89). There was a different slope for normal and hypertrophied hearts with a steeper decline of the left ventricular function in hypertrophied hearts for any given reduction of the myocardial adenine nucleotide content. Our results indicate that a similar reduction of the ATP or total adenine nucleotide content in both the normal and hypertrophied heart reduces left ventricular function to a greater degree in the hypertrophied heart.