Distribution of the myocardial tissuePO2 in the rat and the inhomogeneity of the coronary bed

Abstract

The structural inhomogeneity of the myocardial capillary bed is simulated by microcirculatory units (MCU's) in a diffusion model. This simulation is based on MCU's in which the arrangement of the capillary ends (concurrent structure, partial and total countercurrent structure, helical structure) as well as the structure and supply parameters are varied. The variation of these parameters is based on own measurements of the intracapillary HbO₂ saturation as well as on the following parameters from the literature: frequency distribution of capillary distance and capillary radius, mean capillary length or capillary section length respectively, arterial and mean venousPO₂, mean coronary blood flow, mean O₂ consumption and diffusion conductivity. The analysis of O₂ supply of the normoxic rat heart shows that an O₂ diffusion shunt is obligatory except for MCU's with an extremely large capillary distance or with a concurrent capillary structure. Therefore the minimal tissuePO₂ lies at the level of the capillary venousPO₂ of a MCU. The maximum of the totalPO₂ frequency distribution in the normoxic rat myocardium lies at 25±5 mm Hg, i.e. above the mean venousPO₂ (20 mm Hg). TissuePO₂ values between 0 and 5 mm Hg amount to 0.5%, i.e. they are extremely rare. TissuePO₂ values of 0–1 mm Hg represent less than 0.2%.