Measurement of fetal heat production using differential calorimetry

Abstract

These experiments were undertaken to measure heat production of fetal lambs in utero by using differential calorimetry. We used the principle that fetal heat production, H(fetus), can be calculated from measurements of base-line temperature difference between mother and fetus, delta T(fetus), heat introduced from an external source, H(heater), and the increase in body temperature, delta T(heater), that results, i.e., H(fetus) = H(heater) X delta T(fetus)/delta T(heater). We placed microheaters (1.8 mm diam) in the inferior vena cavae of eight near-term lambs and placed thermistors and catheters into maternal and fetal vessels and amniotic fluid. Five days later, fetal arterial temperature averaged 0.54 +/- 0.02 degrees C (SE) higher than maternal arterial temperature. When the heater was turned on to dissipate 29–103 cal/min, fetal temperature increased to approach 0.1–0.5 degrees C higher than control; the final temperature was estimated using the rate of increase during the first 20 min. Fetal heat production averaged 47.1 +/- 4.1 cal X min-1 X kg-1 during the warming phase in these lambs, which weighed 3.26 +/- 0.36 kg. This value would be 3–4% less if corrected for the increase in metabolic rate caused by heating, assuming a Q10 of 2.5. Fetal heating did not alter fetal heart rate, blood pressure, or blood gas values significantly, nor was hemolysis visible in plasma samples. When heat production was calculated from the decrease in fetal temperature after the heater was turned off, an average value of 41.2 +/- 2.5 cal X min-1 X kg-1 was found. Because this value is comparable to the heating phase, fetal metabolic rate and the insulating properties of the fetal shell are not likely to have been changed by the heating.