Suga H
Am J Physiol. 1979 Mar;236(3):H498-505. doi: 10.1152/ajpheart.1979.236.3.H498.
Mechanical energy (ENG) required by a time-varying elastance model of the ventricle was compared with oxygen consumption per beat (VO2) of the canine left ventricle contracting under a variety of loading conditions. ENG needed for this model to increase its elastance during systole is shown to be equal to the sum of the potential energy built in the elastance during systole plus the external mechanical stroke work. This ENG is equivalent to the area (PVA) bounded by the end-systolic and end-diastolic P-V curves and the systolic limb of the P-V loop trajectory in the P-V plane. There was a high correlation (r = 0.89) between VO2s documented in the literature and PVAs assessed by the author from the accompanying P-V data from both isovolumic and ejecting contractions in 11 hearts. A linear regression analysis yielded an empirical equation: VO2 (ml O2/beat) = a . PVA (mmHg . ml/beat) + b, where a = 1.37 X 10(-5) and b = 0.027, which can be used to predict VO2 from PVA. A preliminary experimental study in my laboratory confirmed the validity of this empirical equation.
将心室的时变弹性模型所需的机械能(ENG)与在各种负荷条件下收缩的犬左心室的每搏氧量(VO2)进行了比较。该模型在收缩期增加其弹性所需的ENG被证明等于收缩期弹性中积累的势能加上外部机械搏出功之和。该ENG等同于由收缩末期和舒张末期压力-容积曲线以及压力-容积平面中压力-容积环轨迹的收缩期分支所界定的面积(PVA)。文献中记录的VO2s与作者根据11颗心脏等容收缩和射血收缩的伴随压力-容积数据评估的PVAs之间存在高度相关性(r = 0.89)。线性回归分析得出一个经验方程:VO2(ml O2/搏)= a·PVA(mmHg·ml/搏)+ b,其中a = 1.37×10⁻⁵且b = 0.027,该方程可用于从PVA预测VO2。我实验室的一项初步实验研究证实了该经验方程的有效性。
