Your search keyword '"Diserbo M"' showing total 2 results

1. Total body 4.5 Gy gamma irradiation-induced early delayed learning and memory dysfunction in the rat.

Author

Lamproglou I, Martin S, Diserbo M, Multon E, Petiet A, Colas-Linhart N, Bok B, and Martin C

Subjects

Animals, Avoidance Learning physiology, Disease Models, Animal, Male, Memory radiation effects, Radiation Dosage, Rats, Rats, Wistar, Survival Rate, Time Factors, Avoidance Learning radiation effects, Gamma Rays adverse effects, Learning Disabilities physiopathology, Memory Disorders physiopathology

Abstract

In an attempt to determine the consequences of total body radiation damage on learning and memory in the rat, twenty-eight male Wistar rats aged 4 months received 4.5 Gy total body gamma-irradiation (TBI) while 28 rats received sham irradiation. Sequential behavioral studies of negative reinforcement including a/ one- and b/ two-way avoidance tasks were undertaken. a/ One-way avoidance test: this test was performed before and after TBI. Prior to irradiation both groups were similar. At 20 days (D) and at 3 months post-TBI, irradiated rats had a significantly lower percentage of avoidance than controls but no statistical difference was found at 5 months post-TBI. b/ Two-way avoidance test: this test was performed only after TBI. At days 21, 22, 23, 24, (leaming) and at 4 or 6 months (recalls) post-TBI the mean percentage of avoidance was significantly lower in irradiated than in control rats. This study demonstrates that total-body exposure to 4.5 Gy gamma-irradiation induces behavioral dysfunction affecting learning and transitorily memory. These results suggest that a relatively low dose of total body irradiation can induce neurological complications, which persist 4-6 months later.

Published

2001

2. Low dose of the gamma acute radiation syndrome (1.5 Gy) does not significantly alter either cognitive behavior or dopaminergic and serotoninergic metabolism.

Author

Martin C, Martin S, Viret R, Denis J, Mirguet F, Diserbo M, Multon E, and Lamproglou I

Subjects

Acute Disease, Age Factors, Animals, Avoidance Learning physiology, Avoidance Learning radiation effects, Brain metabolism, Brain radiation effects, Cognition physiology, Male, Memory physiology, Memory radiation effects, Mice, Radiation Dosage, Radiation Injuries physiopathology, Cognition radiation effects, Dopamine metabolism, Gamma Rays adverse effects, Radiation Injuries metabolism, Serotonin metabolism

Abstract

The aim of this study was to evaluate the early-delayed effects of a low dose of the gamma acute radiation syndrome (1.5 Gy) on memory and on dopaminergic and serotoninergic metabolism in Swiss albino CD1 mice, of various ages (6, 10 and 20 weeks). At different times after irradiation (from 24 hr to three months), the mice were trained in a single-trial passive avoidance task and tested for retention either 24 hr or 5 days later. Their performance was compared to that of mice that were sham-irradiated. At the end of the behavioral test (days 3, 9, 30 and 93), the concentrations of dopamine (DA) and serotonin (5HT) and their metabolites were determined in hippocampus, anterior cortex and striatum of mice irradiated at the age of six weeks. No significant behavioral effect was observed whichever the age of the animals or the delay of observation. On the contrary at the moderate dose of 4.5 Gy we observed a significant memory deficit 9 days after the exposure. Considering the neurochemical study, in the striatum or in the frontal cortex, no significant modification was observed whichever the delay or the molecule. In the hippocampus slight modifications were noted: an increase (+144%, p = 0.002) in DA level on day 3 after exposure, and a decrease (-27%, p = 0.028) of 5HT level on day 30 post-irradiation. These modifications were only transient and not associated to modifications of the catabolites. This study demonstrates that total-body exposure to gamma radiation at low dose seems to induce only slight effects on the central nervous system.

Published

2001