Heterogeneity of gut capillary transit times and impaired gut oxygen extraction in endotoxemic pigs

We heterogeneity of gut capillary transit times and impairs oxygen extraction. The gut critical oxygen extraction ratio was determined by measuring multiple oxygen delivery-consumption points during progressive phlebotomy in eight control and eight endotoxin-infused anesthetized pigs. In multiple 1- to 2-g samples of small bowel, we measured blood volume (radiolabeled red blood cells) and flow (radiolabeled 15-mu m microspheres) before and after critical oxygen extraction. Red blood cell transit time(= volume/flow) multiplied by morphologically determined capillary/total blood volume gave capillary transit time. During hemorrhage, capillary/total blood volume did not change in the endotoxin group (0.5+/-4.5%) but increased in the control group (17.6+/-2.5%; P <0.05) due to a decrease in total gut blood volume. Flow decreased significantly in the endotoxin group (36+/-10%; P <0.05) but not in the control group (12+/-10%). Capillary transit-time heterogeneity increased in the endotoxin group (12.3+/-4.9%) compared with the control group (-5.8+/-7.4%; P <0.05), predicting a critical oxygen extraction ratio 0.14 lower in the endotoxin group than in the control group (K. R. Walley. J. Appl. Physiol. 81: 885-894, 1996). This matches the measured difference (endotoxin group, 0.60 i 0.04; control group, 0.74 i 0.03; P <0.05). Increased heterogeneity of capillary transit times may be an important cause ofimpaired oxygen extraction.