RESUMO
A 13-week dermal repeat-dose toxicity study was conducted with hydrodesulfurized (HDS) kerosene, a test material that also met the commercial specifications for aviation turbine fuel (jet A). The objectives were to assess the potential for target organ toxicity and neurotoxicity. The HDS kerosene was applied to the shaved backs of Sprague-Dawley CD rats, 12/sex/group, 6 h/d, 5 d/wk in doses of 0 (vehicle control), 165 mg/kg (20% HDS kerosene), 330 mg/kg (40% HDS kerosene), or 495 mg/kg (60% HDS kerosene). Additional rats (12/sex) from the control and the high-dose groups were held without treatment for 4 weeks to assess recovery. Standard parameters of toxicity were investigated during the in-life phase. At necropsy, organs were weighed and selected tissues were processed for microscopic evaluation. Neurobehavioral evaluations included tests of motor activity and functional observations that were conducted pretest, at intervals during the exposure period and after recovery. No test substance-related effects on mortality, clinical observations (except dermal irritation), body weight, or clinical chemistry values were observed. A dose-related increase in skin irritation, confirmed histologically as minimal, was evident at the dosing site. The only statistically significant change considered potentially treatment related was an increase in the neutrophil count in females at 13 weeks. No test article-related effects were observed in the neurobehavioral assessments or gross or microscopic findings in the peripheral or central nervous system tissues in any of the dose groups. Excluding skin irritation, the no observed adverse effect level value for all effects was considered 495 mg/kg/d.
Assuntos
Querosene/toxicidade , Síndromes Neurotóxicas/patologia , Dermatopatias/patologia , Testes de Toxicidade/métodos , Administração Cutânea , Animais , Peso Corporal/efeitos dos fármacos , Relação Dose-Resposta a Droga , Feminino , Masculino , Síndromes Neurotóxicas/etiologia , Nível de Efeito Adverso não Observado , Ratos , Ratos Sprague-Dawley , Pele/efeitos dos fármacos , Pele/metabolismo , Dermatopatias/etiologiaRESUMO
The current study investigated the influence of ethanol and ethanol-containing mouthrinses on model chemical permeability in an in vitro oral buccal mucosal construct (EpiOral, ORL-200, MatTek). Innate ethanol transport and metabolism in the tissue construct was also studied. Caffeine flux in buccal tissue was measured after pre-treatment with < 26.9% ethanol or Listerine(®) products under conditions modeling a typical mouthwash rinsing. Specifically, a 30s exposure to alcohol products followed by a 10h non-treatment phase and then a second 30s exposure prior to addition of caffeine. At 10min specific intervals, media was collected from the basal part of the tissue insert for HPLC analysis of caffeine. The results demonstrated no increase in caffeine flux due to prior exposure to either ethanol or Listerine(®), and the flux and permeability constants were derived from the linear phase. No cytotoxicity or histopathological effects were observed in these tissues. We also studied the transepithelial transport and metabolism of ethanol in these tissues. Transport of ethanol was concentration-dependent with rate of diffusion proportional to the concentration gradient across the membrane. The potential metabolism of ethanol in the EpiOral construct was addressed by analyzing the remaining level of ethanol after incubation and de novo accumulation of acetaldehyde or acetic acid in culture media. Incubation for 30min incubation resulted in no change in ethanol level up to 2000mM, the highest concentration tested. No acetaldehyde or acetic acid was detected in culture media. In conclusion, ethanol and ethanol-containing mouthrinse treatment modeled after a typical daily mouthrinse pattern had no apparent effect on the permeability of the standard model chemical, caffeine. This exposure also had no effect on the viability of the tissue construct or histopathology, and uptake of ethanol was rapid into the tissue construct.