Influence of diltiazem on cardiac function at organ and molecular level during hypothermic cardiac arrest
Prasad, K.; Bharadwa, B.
Canadian Journal of Cardiology 3(7): 351-356
1987
ISSN/ISBN: 0828-282X PMID: 2962705 Document Number: 298714
The present study was undertaken to assess the effects of cold crystalloid cardioplegia with and without diltiazem on the functional recovery of the heart, calcium binding and uptake by the sarcoplasmic reticulum, Ca++ATPase of sarcoplasmic reticulum and coronary sinus serum MBCK (MB fraction of creatine kinase) of dogs, after 1.5 h of reperfusion following 1 h of ischemic cardiac arrest. The dogs were divided into three groups: group I, sham bypass (no ischemic cardiac arrest); group II, cold crystalloid cardioplegia; group III, cold crystalloid cardioplegia with diltiazem. The results showed that the decrease in the index of cardiac contractility and cardiac index which accompanies cold crystalloid cardioplegia is associated with a decrease in the calcium uptake by sarcoplasmic reticulum. The index of myocardial contractility was better preserved with cold crystalloid plus diltiazem than with cold crystalloid alone. This improvement, although partial, in cardiac contractility with cold crystalloid plus diltiazem, was associated with a tendency for an increase towards control values in the calcium uptake by sarcoplasmic reticulum. There were no changes in Ca++ATPase of, and calcium binding by, the sarcoplasmic reticulum of groups II and III when compared to group I. There was a progressive increase in the MBCK of coronary sinus blood in groups II and III. The MBCK of group I was unchanged throughout the experimental protocol. The increases in the MBCK of coronary sinus blood were less in group III than in group II indicating the protective effect of diltiazem on ischemic and reperfusion myocardial injury. These results suggest that cold crystalloid cardioplegia containing diltiazem is slightly superior to cold crystalloid cardioplegia alone in preserving cardiac and cellular function during ischemic cardiac arrest and reperfusion.