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Original Articles

Disodium cromoglycate, a mast‐cell stabilizer, alters postradiation regional cerebral blood flow in primates

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Pages 91-101 | Received 28 Jun 1985, Accepted 01 Dec 1985, Published online: 20 Oct 2009
 

Abstract

Early transient incapacitation (ETI) is the complete cessation of performance during the first 30 min after radiation exposure, and performance decrement (PD) is a reduction in performance at the same time. Supralethal doses of radiation have been shown to produce a marked decrease in regional cerebral blood flow in primates concurrent with systemic hypotension and a dramatic release of mast‐eel! histamine. In an attempt to elucidate mechanisms underlying the radiation‐induced ETI/PD phenomena and the postradiation decrease in cerebral blood flow, primates were given the mast‐cell stabilizers disodium cromoglycate (DSCC) or BRL 22321 (Beecham Pharmaceuticals, Research Division) before exposure to 100 Cy whole‐body gamma radiation. Hypothalamic and cortical blood flows were measured by hydrogen clearance, before and after radiation exposure. Systemic blood pressures were determined simultaneously. The data indicated that DSCC was successful in diminishing postradiation decrease in cerebral blood flow. Irradiated animals pretreated with DSCC, showed only a 10% decrease in hypothalamic blood flow 60 min postradiation, while untreated, irradiated animals showed a 57% decrease. The cortical blood flow of DSCC treated, irradiated animals showed a triphasic response, with a decrease of 38% at 10 min postradiation, then a rise to 1% below baseline at 20 min, followed by a fall to 42% below baseline by 50 min postradiation. In contrast, the untreated, irradiated animals showed a steady decrease in cortical blood flow to 79% below baseline by 50 min postradiation. There was no significant difference in blood‐pressure response between the treated and untreated, irradiated animals. Systemic blood pressure showed a 60% decrease at 10 min postradiation, falling to a 71% decrease by 60 min. The effects of BRL 22321 in altering postradiation blood flow in the cerebral cortex and hypothalamus were intermediate between the irradiated controls and those pretreated with DSCC, but were not considered to be significant at the concentration employed. The overall results of this study indicate that the postradiation decrease in regional cerebral blood flow may be partially alleviated by treatment with a mast‐cell stabilizer.

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