Sequelae of Carbon Monoxide-Induced Hypoxia in the Rat

doi:10.1001/archneur.33.3.152

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Vol. 33 No. 3, March 1976

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Sequelae of Carbon Monoxide-Induced Hypoxia in the Rat

Jack H. Petajan, MD, PhD; Steven C. Packham, PhD; David B. Frens, MD; Bruce G. Dinger, MA

Arch Neurol. 1976;33(3):152-157.

Abstract

• Rats were exposed to carbon monoxide, and conductionvelocity of ventral caudal nerve (VCN), visual cortical evokedpotential (VEP), electroencephalogram, and vital functions weredetermined in relation to the degree of CO-induced hypoxia.The conduction velocity of VCN and VEP (latency of P₂ [secondpositive deflection of the visual evoked response]) were unaffecteduntil carboxyhemoglobin (COHb) levels reached between 60% and70%. These levels were maintained for approximately one hourbefore decreased conduction velocity or increased latency ofP₂ occurred. Decrease in mean arterial blood pressure resultedin impaired neurological function. Recovery of conduction velocitywas discontinuous. Conduction was lost and recovered again withina three-hour period after exposure. It decreased again 9 to13 days later, recovering in approximately four days. Data onP₂ latency after exposure were fragmentary, but suggest thatlater increases might occur. Similar effects of CO-induced hypoxiaon peripheral and central nervous systems were found. Decreaseof mean arterial blood pressure was consistently associatedwith impaired nervous system function.

Author Affiliations

From the Department of Neurology (Drs Petajan, Packham, and Frens), the Flammability Research Center (Drs Petajan and Packham and Mr Dinger), and the Department of Physiology (Mr Dinger), University of Utah colleges of medicine and engineering, Salt Lake City.

Footnotes

Accepted for publication March 21, 1975.

Reprint requests to Department of Neurology, University of UtahCollege of Medicine, 3 E 512 Medical Center, Salt Lake City,UT 84132 (Dr Petajan).

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