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• W1987181844 abstract "The adult nervous system, although sensitive to ionizing radiation during development (1-4), has been regarded as relatively resistant, if histopathological criteria are adopted. However, the intact nervous system can respond physiologically to low doses (5-7), histological effects of which have been reported in the adult (8) after both acute and chronic administration. A variety of central nervous responses have been recently reported to have been affected by radiation, including behavioral arousal (9, 10), the electroconvulsive threshold (11), and motivation (12). Early electrophysiological, both electroencephalographic (E.E.G.) and electrocorticographic (E.Co.G.), effects of irradiation have been studied in monkeys (13) and in rats after whole-body irradiation (14). The cerebellar-evoked response declined (15) and periodic spiking and generalized slowing of E.Co.G. activity occurred after cranial irradiation (16). Lower doses induced spike discharge in the dorsal hippocampus and low-voltage fast activity (17, 18). Spike amplitude and conduction velocity in peripheral nerve diminished (19, 20), and complete electrical blocking of compound action potentials of muscles followed intense irradiation (21). These E.E.G. or E.Co.G. changes caused by ionizing radiation can be explained either by the hypothesis of a nonneuronal general metabolic mechanism of action or by that of a primary and direct neuronal site for the action of radiation-in particular, the volume stimulus concept (10). In an endeavor to decide between these two hypotheses, the effects of bilateral and unilateral irradiation of the head of the rat have been determined on symmetrically derived monopolar E.Co.G.'s from both hemispheres. If E.Co.G. effects were due to nonneuronal metabolic factors, bilateral changes would be predicted after unilateral irradiation, but if these effects were mediated by a direct volume neuronal stimulus, then primarily ipsilateral changes would be expected. A preliminary account (22) of these experiments has been presented." @default.
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• W1987181844 date "1965-04-01" @default.
• W1987181844 modified "2023-10-18" @default.
• W1987181844 title "Early Electrocortical Effects of Unilateral and Bilateral Cranial X-Irradiation in the Albino Rat" @default.
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• W1987181844 doi "https://doi.org/10.2307/3571877" @default.
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