Classes of tissue hypoxia

Abstract

We identify eight causes of tissue hypoxia, falling into three classes, A, B, and C, depending upon the effect on the critical mixed venous pO₂ and the optimal oxygen consumption rate. The critical mixed venous pO₂ is the value above which the oxygen consumption rate is optimal and independent of the mixed venous pO₂ and below which the oxygen consumption rate decreases towards zero. Class A hypoxia: primary decrease in mixed venous pO₂. Causes: 1) ischaemic hypoxia (decrease in cardiac output), 2) low-extractivity hypoxia (decrease in oxygen extraction tension, p₈). Class B hypoxia: primary increase in critical mixed venous pO₂. Causes: 1) shunt hypoxia (increased a-v shunting), 2) dysperfusion hypoxia (increased diffusion length from erythrocytes to mitochondria and/or decreased total capillary endothelial diffusion area, e. g., tissue oedema, microembolism), 3) histotoxic hypoxia (inhibition of the cytochrome chain). Class C hypoxia: primary increase in optimal oxygen consumption rate. Causes: 1) uncoupling hypoxia (uncoupling of the ATP formation associated with O₂ reduction), 2) hypermetabolic hypoxia (increased energy metabolism, e. g., due to hyperthermia).