The buffer perfused isovolumically contracting mouse heart model is more reliable and yields higher post-ischaemic recoveries than the apicobasal model.
The buffer perfused isovolumically contracting mouse heart model is more reliable in assessing ischemic responses than the commonly employed apicobasal model.
Absolute Event Rate: 82% vs 80%
Despite minimal model characterisation Langendorff perfused murine hearts are increasingly employed in cardiovascular research, and particularly in studies of myocardial ischaemia and reperfusion. Reported contractility remains poor and ischaemic recoveries variable. We characterised function in C57/BL6 mouse hearts using a ventricular balloon or apicobasal displacement and assessed responses to 10-30 min global ischaemia. We examined the functional effects of pacing, ventricular balloon design, perfusate filtration, Ca(2+) and temperature. Contractility was high in isovolumically functioning mouse hearts (measured as the change in pressure with time (+dP/dt), 6000-7000 mmHg s(-1)) and was optimal at a heart rate of approximately 420 beats min(-1), with the vasculature sub-maximally dilated, and the cellular energy state high. Post-ischaemic recovery (after 40 min reperfusion) was related to the ischaemic duration: developed pressure recovered by 82 +/- 5 %, 73 +/- 4 %, 68 +/- 3 %, 57 +/- 2 % and 41 +/- 5 % after 10, 15, 20, 25 and 30 min ischaemia, respectively. Ventricular compliance and elastance were both reduced post-ischaemia. Post-ischaemic recoveries were lower in the apicobasal model (80 +/- 4 %, 58 +/- 7 %, 40 +/- 3 %, 32 +/- 7 % and 25 +/- 5 %) despite greater reflow and lower metabolic rate (pre-ischaemic myocardial O(2) consumption (V(O2,myo)) 127 +/- 15 vs. 198 +/- 17 microl O(2) min(-1) g(-1)), contracture, enzyme and purine efflux. Electrical pacing slowed recovery in both models, small ventricular balloons (unpressurised volumes < 50-60 microl) artificially depressed ventricular function and recovery from ischaemia, and failure to filter the perfusion fluid to < 0.45 microm depressed pre- and post-ischaemic function. With attention to these various experimental factors, the buffer perfused isovolumically contracting mouse heart is shown to be stable and highly energized, and to possess a high level of contractility. The isovolumic model is more reliable in assessing ischaemic responses than the commonly employed apicobasal model.
헤드릭 외(Thu,)는 심근 허혈 및 재관류에서 다른 연구를 수행했습니다. 등용적 심실 풍선 모델과 정점-기저 변위 모델이 10분 허혈 후 개발된 압력의 허혈 후 회복을 평가하는 데 사용되었습니다. 완충액으로 등용적 수축을 하는 마우스 심장 모델이 더 신뢰성이 높고 정점-기저 모델보다 허혈 후 회복이 더 큽니다.
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