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Inhalation Toxicity of Methanol/Gasoline in Rats: Effects of 13-Week Exposure

Environmental Health Directorate Health Protection Branch Ottawa, Canada, Raymond_Poon{at}INET.HWC.CA

George Park

Environmental Health Directorate Health Protection Branch Ottawa, Canada

Claude Viau

Département de Médecine du Travail et Hygiene du Millieu Université de Montréal Montréal, Canada

Ih Chu

Environmental Health Directorate Health Protection Branch Ottawa, Canada

Marc Potvin

Environmental Health Directorate Health Protection Branch Ottawa, Canada

Renaud Vincent

Environmental Health Directorate Health Protection Branch Ottawa, Canada

Victor E. Valli

College of Veterinary Medicine University of Illinois - Urbana, Illinois

The subchronic inhalation toxicity of a methanol/gasoline blend (85% methanol, 15% gasoline, v/v) was studied in rats. Sprague Dawley rats (10 animals per group) of both sexes were exposed to vapors of methanol/gasoline at 50/3, 500/30 and 5000/300 ppm for 6 hours per day, 5 days per week, for 13 weeks. Control animals inhaled filtered room air only. Control recovery and high dose recovery groups were also included which inhaled room air for an extra 4 weeks following the treatment period. No clinical signs of toxicity were observed in the treatment group and their growth curves were not significantly different from the control. Except for decreased forelimb grip strength in the high dose females, no treatment-related neurobehavioural effects (4-6 hours post inhalation) were observed using screening tests which included cage-side observations, righting reflex, open field activities, and forelimb and hindlimb grip strength. At necropsy, the organ to body weight ratios for the liver, kidneys, spleen, testes, thymus and lungs were not significantly different from the control group. There were no treatment-related effects in the hematological endpoints and no elevation in serum formate levels. Minimal serum biochemical changes were observed with the only treatment-related change being the decreased creatinine in the females. A dose-related increase in urinary ascorbic acid was detected in males after 2,4 and 8 weeks of exposure, but not after the 12th week, and in females only at week-2. Increased urinary albumin was observed in treated males starting at the lowest dose and at all exposure periods, but not in females. A treatment-related increase in urinary β ₂-microglobulin was detected in males at week-2 only. Except for mild to moderate mucous cell metaplasia in nasal septum B, which occurred more often and with a slightly higher degree of severity in the low dose groups of both sexes, and presence of a minimal degree of interstitial lymphocyte infiltration in the prostate glands of the high dose males, no other significant microscopic changes were observed in the tissues of treated animals. Based on the marked increase in urinary ascorbic acid and albumin in the high dose males and the decreased forelimb grip strength in the high dose females, we concluded that the no-observed adverse effect level (NOAEL) of methanol/gasoline vapor is 500/30 ppm.

Key Words: alternate fuels • gasoline • inhalation toxicity • interactive effects • methanol • M85.

Toxicology and Industrial Health, Vol. 14, No. 4, 501-520 (1998)
DOI: 10.1177/074823379801400402


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