The interconversion and disposal of ketone bodies in untreated and injured post-absorptive rats.

[3-(14)C]Acetoacetate and beta-hydroxy[3-(14)C]butyrate were used to investigate the kinetics of ketone body metabolism in rats 3h after bilateral hind-limb ischaemia and in controls, both groups being in the post-absorptive state and in a 20 degrees C environment. Calculations were carried out as described by Heath & Barton (1973) and the following conclusions were reached. 1. In both injured and control rats, the rates of irreversible disposal (extrahepatic utilization) of beta-hydroxybutyrate and acetoacetate were proportional within experimental error to their blood concentrations up to at least 0.4mm (the maximum found in these rats), implying that they were determined, via these concentrations, by the rates of production by the liver. 2. Conversion of blood beta-hydroxybutyrate into blood acetoacetate took place mainly in the liver, but the reverse process occurred mainly in extrahepatic tissues. 3. The ;metabolic clearance rate' (the volume of blood which, if completely cleared of substrate in unit time, would give a disposal rate equal to that in the whole animal) was calculated for beta-hydroxybutyrate and acetoacetate. Comparison with the cardiac output showed that in control rats the proportion of circulating beta-hydroxybutyrate extracted was lower than that of acetoacetate, clearance of which appeared almost complete. After injury both metabolic clearance rates decreased, probably because of the lower cardiac output. 4. After injury, because the average blood concentrations of ketone bodies, especially acetoacetate, were higher, the mean total rate of disposal also increased. Assuming complete oxidation, the mean contribution of ketone bodies to the whole body O(2) consumption rose from 7 to 15%.