The investigation was designed to determine whether the renal loss of bicarbonate contributes significantly to the acidosis of hypothermia. The excretion of bicarbonate during hypothermia was studied in five infused (6% creatinine in saline at 0.4 ml/minute) and five non-infused dogs. All animals were anesthetized and artificial respiration was not used. The rectal temperature was gradually reduced to the 26–27 °C range by approximately 4 hours of exposure to ice packing. After control, clearance periods of 30 minutes' duration were conducted serially and continually through the experiment. There was no significant increase in bicarbonate excretion during hypothermia in the non-infused group. The urinary pH remained at control levels of about 6.2. The fall in arterial pH was not due to urinary bicarbonate loss. The urinary pH in the infused group, which had a higher urine flow, increased to pH 6.7 due to increased excretion of bicarbonate. The urine pH in three animals with highest urine flows in this latter group approached plasma levels. The excretion rate of bicarbonate in the infused group, however, was similarly insufficient to account for the decrease in arterial pH. The hypothermic kidney is quite effective in reabsorbing bicarbonate.
The investigation was designed to determine whether the renal loss of bicarbonate contributes significantly to the acidosis of hypothermia. The excretion of bicarbonate during hypothermia was studied in five infused (6% creatinine in saline at 0.4 ml/minute) and five non-infused dogs. All animals were anesthetized and artificial respiration was not used. The rectal temperature was gradually reduced to the 26–27 °C range by approximately 4 hours of exposure to ice packing. After control, clearance periods of 30 minutes' duration were conducted serially and continually through the experiment. There was no significant increase in bicarbonate excretion during hypothermia in the non-infused group. The urinary pH remained at control levels of about 6.2. The fall in arterial pH was not due to urinary bicarbonate loss. The urinary pH in the infused group, which had a higher urine flow, increased to pH 6.7 due to increased excretion of bicarbonate. The urine pH in three animals with highest urine flows in this latter group approached plasma levels. The excretion rate of bicarbonate in the infused group, however, was similarly insufficient to account for the decrease in arterial pH. The hypothermic kidney is quite effective in reabsorbing bicarbonate.
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