Oxygen supply and the placenta limit thermogenic responses in fetal sheep.

Abstract

The aim of this study was to assess the individual effects of cooling, increased oxygenation, and umbilical cord occlusion on nonshivering thermogenesis in utero. A cooling coil was placed around eight fetal sheep of 132-145 days gestation; thermistors were placed in the fetal esophagus and maternal iliac artery, vascular catheters and a tracheal catheter were inserted, and a snare was placed loosely around the umbilical cord. The next day cold water was circulated through the coil for 5 h. During the 1st h of cooling alone, fetal core temperature fell 2.79 degrees C, but indexes of brown fat activity increased only slightly. After ventilation with O2, plasma free fatty acid concentration (FFA) rose 7.4-fold to 244 +/- 42 mu eq/l, glycerol concentration rose fourfold to 376 +/- 85 microM, and the difference between brown fat and core temperature widened to 0.60 +/- 0.10 degrees C. Ventilation with N2-enriched air did not evoke similar responses. After snaring the umbilical cord while ventilation was continued, FFA rose to 554 +/- 95 mu eq/l, glycerol rose to 684 +/- 76 microM, and the temperature difference widened to 0.77 +/- 0.13 degrees C. Whole-body O2 consumption peaked at 19.6 ml.min-1.kg-1 of fetal tissue. We conclude that fetal thermogenic responses are limited in part by O2 delivery to brown fat and are augmented by occlusion of the umbilical cord.