Effect of ionizing radiation on physiological function in the anesthetized rat

Exposure of pentobarbital-anesthetized rats to 14.5-MeV electrons results in radiation-induced physiological dysfunction. Responses include transient hypotension, a transient decrease in heart rate, respiratory dysrhythmias, and a prolonged increase in pulse pressure. Magnitudes of these responses a...

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Bibliographic Details
Published inRadiation research Vol. 99; no. 2; p. 394
Main Authors Alter, 3rd, W A, Catravas, G N, Hawkins, R N, Lake, C R
Format Journal Article
LanguageEnglish
Published United States 01.08.1984
Subjects
Anesthesia
Animals
beta-Endorphin
Blood Pressure - radiation effects
Electrons
Endorphins - blood
Epinephrine - blood
Heart Rate - radiation effects
Histamine - blood
Histamine Antagonists - therapeutic use
Male
Norepinephrine - blood
Pentobarbital
Pulse - radiation effects
Radiation Injuries, Experimental - physiopathology
Radiation Injuries, Experimental - prevention & control
Rats
Rats, Inbred Strains
Respiration - radiation effects
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Summary:Exposure of pentobarbital-anesthetized rats to 14.5-MeV electrons results in radiation-induced physiological dysfunction. Responses include transient hypotension, a transient decrease in heart rate, respiratory dysrhythmias, and a prolonged increase in pulse pressure. Magnitudes of these responses are dose related, and maximal responses can be elicited by either whole- or partial-body (head or abdominal) exposure to 10,000 rad. These responses were associated with a fivefold increase in arterial plasma concentration of epinephrine, whereas histamine, norepinephrine, and beta-endorphin did not change during the first minute after the onset of exposure. Administration of diphenhydramine, a histamine receptor antagonist, resulted in a significant decline of baseline cardiovascular function and inhibited radiation-induced cardiovascular dysfunction. The diphenhydramine-induced decrease in preexposure blood pressure was reversed by angiotensin infusion, but this procedure failed to restore the mechanism(s) responsible for the cardiovascular responses to radiation. Results of these experiments and information available in the literature support the hypothesis that these responses are due to an interference in the autonomic pathways that modulate cardiovascular function.
ISSN:0033-7587
DOI:10.2307/3576382