Components of the blood acid-base disturbance that accompanies urethane anaesthesia in rats during normothermia and hypothermia

Abstract

1. We have studied the components of the metabolic acidosis that accompanies urethane anaesthesia in rats, both with and without the hypothermia that results from this anaesthesia. 2. Acid-base disturbances were analysed with an approach based on Stewart's analysis of acid-base chemistry. 3. The pH fall in the blood of normothermic anaesthetized rats (body temperature Tb) = 37 degrees C) was related to increases in plasma anions (lactate and [Cl-]), which decreased the strong ion difference ([SID]), as well as to increase the weak acid buffers due to increases in albumin. 4. A stronger metabolic acidosis was found in the blood of rats with hypothermia induced by urethane (Tb = 32 degrees C). Although plasma lactate was unchanged in hypothermic rats, [SID] decreased due to alterations in the plasma ionic balance. The metabolic acidosis found in hypothermia was also associated with increased weak acid buffers due to increases in albumin and inorganic phosphate. Further to hyperphosphataemia, signs of acute renal disfunction, such as increases in plasma [Mg2+] and blood urea nitrogen were found. Plasma retention of endogenous acids together with the retention of acid end-products of the metabolism of urethane because of acute renal failure may have contributed to strengthening the fall in pH and [HCO3-] found in urethane-induced hypothermic rats.