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Assessment and Impact of Heterogeneities of Convective Oxygen Transport Parameters in Capillaries of Striated Muscle: Experimental and Theoretical

机译:横纹肌毛细血管中对流氧输运参数的异质性评估和影响:实验和理论

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Convective oxygen transport parameters were determined in arteriolar (n = 5) and venular (n 5) capillary networks in the hamster cheek pouch retractor muscle. Simultaneously determined values of red blood cell velocity, lineal density, red blood cell frequency, hemoglobin oxygen saturation (SO2), oxygen flow (QO2), longitudinal SO2 gradient, and diameter were obtained in a total of 73 capillaries, 39 at the arteriolar ends of the network (arteriolar capillaries) and 34 at the venular ends (venular capillaries). We found that the hemodynamic variables were not different at the two ends. However, not unexpectedly, SO2 and QO2 were significantly higher at the upstream end of arteriolar capillaries (60.8 ± 9.8 (SD)% and 0.150 ± 0.081 pl/sec, respectively) compared with the downstream end of venular capillaries (39.9 ± 13.6% and 0.108 ± 0.095 pl/sec, respectively). Heterogeneities in red blood cell velocity, lineal density, SO2, and QO2, assessed by their coefficients of variation, were significantly greater in venular capillaries. To evaluate the impact of these heterogeneities on oxygen exchange, we incorporated these unique experimental data into a mathematical model of oxygen transport which accounts for variability in red blood cell frequency, lineal density, inlet SO2, capillary diameter, and, to some degree, capillary flow path lengths. An unexpected result of the simulation is that only the incorporation of variability in capillary flow path lengths had any marked effect on the heterogeneity in end-capillary SO2 in resting muscle due to extensive diffusional shunting of oxygen among adjacent capillaries. We subsequently evaluated, through model simulations, the effect of these heterogeneities under conditions of increased flow and high oxygen consumption. Under these conditions, the model predicts that heterogeneities in the hemodynamic parameters will have a marked effect on oxygen transport in this muscle. © 1988 Academic Press, Inc.
机译:在仓鼠脸颊袋牵开器肌肉中的小动脉(n = 5)和小静脉(n 5)毛细血管网络中确定对流氧气传输参数。在总共73个毛细血管,小动脉末端的39个毛细血管中获得了同时测定的红细胞速度,线密度,红细胞频率,血红蛋白氧饱和度(SO2),氧气流量(QO2),纵向SO2梯度和直径的值网状结构(小动脉毛细血管)和34个静脉端(静脉毛细血管)。我们发现,血液动力学变量在两端没有差异。然而,毫不奇怪,与静脉毛细血管的下游端相比,小动脉毛细血管的上游端的SO2和QO2显着较高(分别为60.8±9.8(SD)%和0.150±0.081 pl / sec)。分别为0.108±0.095 pl / sec)。在静脉毛细血管中,通过变异系数评估的红细胞速度,线密度,SO2和QO2的异质性明显更高。为了评估这些异质性对氧交换的影响,我们将这些独特的实验数据纳入了氧迁移的数学模型中,该模型解释了红细胞频率,线密度,入口SO2,毛细管直径以及一定程度的毛细管的变异性流路长度。该模拟的出乎意料的结果是,由于相邻毛细血管中氧的广泛扩散分流,只有毛细管流动路径长度的可变性并入,对静息肌末端毛细血管SO2的异质性有任何显着影响。随后,我们通过模型仿真评估了这些异质性在流量增加和耗氧量高的条件下的影响。在这些条件下,该模型预测血液动力学参数的异质性将对该肌肉中的氧气运输产生显着影响。 ©1988 Academic Press,Inc.

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