Aldea G S, Hou D, Fonger J D, Shemin R J
Department of Cardiothoracic Surgery, Boston University Medical Center, MA 02118-2393.
J Thorac Cardiovasc Surg. 1994 Feb;107(2):499-504.
Inhomogeneous delivery of cardioplegic solution may result in postischemic myocardial injury. This study compares the distribution of warm blood antegrade and retrograde cardioplegia to multiple discrete left ventricular myocardial regions in pigs with unobstructed coronary arteries. Cardioplegic solution was delivered antegradely and retrogradely at 150 ml/min, and flows to 1152 individual myocardial regions were determined twice for each route with four different radiolabeled microspheres. The antegrade system delivered greater flow to each gram of myocardium than did the retrograde system (1.37 +/- 0.31 versus 0.39 +/- 0.09 ml/gm per minute, p < 0.001). Flow to individual myocardial regions was significantly inhomogeneous for both antegrade and retrograde cardioplegia, but much more so for retrograde cardioplegia (coefficient of variation was 48% +/- 17% for antegrade cardioplegia and 106% +/- 16% for retrograde cardioplegia; p < 0.001). The pattern of flow to individual myocardial regions was highly reproducible for a given route of delivery as confirmed by repeated measurements with different radioactive microsphere isotopes (correlation coefficients 0.88 +/- 0.12 for AC1-AC2 and 0.84 +/- 0.10 RC1-RC2), but antegrade cardioplegia and retrograde cardioplegia patterns were significantly different and therefore complementary (correlation coefficients 0.03 +/- 0.04, p < 0.001). These findings support the routine combined use of antegrade cardioplegia and retrograde cardioplegia to enhance delivery of cardioplegic solution to all regions of the heart and minimize the potential risk of postischemic myocardial dysfunction.
心脏停搏液分布不均可能导致缺血后心肌损伤。本研究比较了温血顺行和逆行心脏停搏液在冠状动脉通畅的猪的多个离散左心室心肌区域的分布情况。以150 ml/min的速度顺行和逆行输送心脏停搏液,使用四种不同的放射性标记微球,对每条路径流向1152个个体心肌区域的血流进行了两次测定。顺行系统输送到每克心肌的血流量比逆行系统更多(分别为1.37±0.31和0.39±0.09 ml/g·min,p<0.001)。顺行和逆行心脏停搏时,流向各个心肌区域的血流均显著不均,但逆行心脏停搏时更为明显(顺行心脏停搏的变异系数为48%±17%,逆行心脏停搏为106%±16%;p<0.001)。通过使用不同放射性微球同位素的重复测量证实,对于给定的输送路径,流向各个心肌区域的血流模式具有高度可重复性(AC1-AC2的相关系数为0.88±0.12,RC1-RC2为0.84±0.10),但顺行心脏停搏和逆行心脏停搏模式存在显著差异,因此具有互补性(相关系数为0.03±0.04,p<0.001)。这些发现支持常规联合使用顺行心脏停搏和逆行心脏停搏,以增强心脏停搏液向心脏所有区域的输送,并将缺血后心肌功能障碍的潜在风险降至最低。
