Brain adaptation to acute hyponatremia in young rats.

Brain swelling after acute hyponatremia in prepubescent rats, in contrast to adults, has recently been associated with an increase in brain sodium and a high mortality that could be prevented by preadministration of testosterone. To reexamine the effect of acute hyponatremia in young brain, we measured brain water and solute content in prepubescent rats after induction of hyponatremia over 4 h with water and arginine vasopressin. An 18% decrease in plasma sodium was associated with a 13% increase in brain water and a decrease in brain sodium and glutamate contents. No animals died. To assess the effect of sex hormones on brain adaptation, prepubescent rats were pretreated with estrogen or testosterone before acute hyponatremia. Brain sodium and potassium contents were significantly reduced in comparison to normonatremia in testosterone-pretreated but not estrogen-pretreated animals. However, there was no difference between estrogen-pretreated and testosterone-pretreated groups in mortality or in brain contents of water, electrolytes, or major organic osmolytes. In conclusion, we found that brain adaptation to acute hyponatremia in prepubescent rats is similar to that observed in adults.

Pathogenesis of cerebral edema after treatment of diabetic ketoacidosis.

We studied the roles of acidosis, plasma osmolality, and organic osmolytes in the pathogenesis of cerebral edema in an animal model of diabetes mellitus. Normonatremic rats with streptozotocin-induced non-ketotic (NKD) and ketotic (DKA) diabetes were sacrificed before or after treatment with hypotonic saline and insulin. Brains were analyzed for water, electrolyte, and organic osmolyte content. Brain water decreased by 2% in untreated DKA and NKD despite a 12% increase in plasma osmolality due to hyperglycemia. After treatment of both NKD and DKA, brain water increased equivalently by 8%. The cerebral edema that occurred after treatment was associated with decreased brain sodium content and no change in total major brain organic osmolytes in both NKD and DKA. However, brain content of the individual osmolytes glutamine and taurine increased after treatment of DKA. In a separate study, brain water and solute content of rats with DKA were compared after treatment with either hypotonic or isotonic fluid. Animals treated with isotonic fluid had significantly less cerebral edema and higher brain sodium content than those treated with hypotonic fluid. In our studies, brain swelling after treatment of DKA and NKD was primarily due to a rapid reduction of plasma glucose and osmolality, and was not caused by sodium movement into the brain. Acidosis did not appear to play a major role in the pathogenesis of cerebral edema after treatment of DKA.

The effects of acetazolamide in albino rabbits, pigmented rabbits, and humans.

In three separate experiments albino rabbits, pigmented rabbits, and humans were tested following administration of acetazolamide and without acetazolamide. In all three experiments, we recorded electroretinograms (ERGs) under dark adapted and light adapted conditions and measured the b-wave amplitudes. Dark adapted ERG b-wave amplitudes were increased following administration of acetazolamide as compared to control conditions, in albino rabbits, pigmented rabbits and humans. Light adapted b-wave amplitudes showed no statistically significant changes as a function of acetazolamide administration although in all three experiments there was a trend toward light adapted b-wave amplitude reduction following administration of acetazolamide. In the human experiments, ERG a-wave amplitudes were also measured. Light adapted a-wave amplitudes were reduced following administration of acetazolamide. In the human experiments, several behavioral tests were performed, including L'Anthony desaturated D-15, Farnsworth-Munsell 100 hue, Cogan-Gunkel chromatograph, Nagel anomaloscope, Goldmann-Weekers dark adaptometry. There were no consistent changes in the human dark adaptation thresholds or color discrimination, although several measures approached significance.