Effects of dexamethasone on tumor-induced brain edema and its distribution in the brain of monkeys

Abstract

A human choriocarcinoma was successfully adapted to grow in the brain of monkeys (Macaca mulatta), thus providing a model of tumor-induced brain edema. Four animals were given dexamethasone (3 mg/kg per day) during 3-5 days after the onset of clinical signs, and the other 5 received no treatment for the same period. Tissue water and electrolyte content of treated and untreated animals were compared in cortex and white matter at various distances from the edge of the tumor. In untreated animals, 67.9% and 23.6% swelling was detected in adjacent and remote white matter, respectively, but only 11.8% swelling was noted in adjacent cortex. In animals treated with dexamethasone these percentages of swelling were improved to 32.4% and 11.9% in the corresponding white matter, and to 4.9% in adjacent cortex. The electrolyte changes shown in edematous brain of control animals also demonstrated significant improvement in the dexamethasone-treated group. Tissue radioactivity of 3H-dexamethasone at 60 min after i.v. injection was high in the periphery of tumor, adjacent cortex and white matter, but low in the center of tumor, remote cortex and white matter. The sites with high concentrations of dexamethasone also showed significant improvement of brain edema after dexamethasone treatment, suggesting that dexamethasone may act directly at these loci.