NTP technical report on the toxicity studies of trimethylsilyldiazomethane (CASRN 18107-18-1) administered by nose-only inhalation to sprague dawley (Hsd:Sprague dawley(r) sD(r)) rats and B6C3F1/N mice

Trimethylsilyldiazomethane (TMSD) is a methylating reagent widely used in organic chemistry. TMSD is structurally related to the compound diazomethane, which is a known lethal respiratory toxicant in humans and in animal models. TMSD is less reactive (with lower explosive potential) than diazomethan...

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Detalles Bibliográficos
Autor principal: National Toxicology Program (U.S.) (author)
Autor Corporativo: National Toxicology Program (U.S.), author, issuing body (author)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Research Triangle Park, North Carolina : National Toxicology Program, Public Health Service, U.S. Department of Health and Human Services 2021.
Materias:
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009820273306719
Descripción
Sumario:Trimethylsilyldiazomethane (TMSD) is a methylating reagent widely used in organic chemistry. TMSD is structurally related to the compound diazomethane, which is a known lethal respiratory toxicant in humans and in animal models. TMSD is less reactive (with lower explosive potential) than diazomethane and is considered a safer, less toxic alternative. Few toxicity data are available to support this claim, however, and TMSD is readily available commercially from chemical suppliers. Concern over the inhalation toxicity of TMSD originates from reports of the death of two chemists resulting from lung injury and acute respiratory distress syndrome following exposure to TMSD in the workplace. Other concerns include the known inhalation toxicity of diazomethane and the absence of inhalation toxicity data for TMSD. The National Toxicology Program (NTP) conducted this study to evaluate the acute inhalation toxicity of TMSD in vivo. Groups of eight male Sprague Dawley (Hsd:Sprague Dawley(r) SD(r)) rats and eight male B6C3F1/N mice were exposed by nose-only inhalation to targeted vapor concentrations of 0 s(air), 0 s(hexanes), or 10 sppm TMSD (in hexanes) for 1 day (30 sminutes) with or without a 9-day recovery period following exposure (1-day exposure or 1-day exposure - recovery). Groups of eight male rats and eight male mice were also exposed to 0 s(air), 0 s(hexanes), 0.3, 1, 3, or 10 sppm TMSD (in hexanes) by nose-only inhalation for up to 5 sdays (30 sminutes/day) with or without a 5-day recovery period following exposure (5-day exposure or 5-day exposure - recovery). Animals were either euthanized the day after the single or last exposure or held for 9 sor 5 days postexposure, respectively, and euthanized to assess recovery and delayed effects in the absence of TMSD exposure. All TMSD-exposed rats survived until scheduled termination. In the 5-day exposure - recovery group exposed to 10 sppm, 4/8 (50%) of the rats exhibited labored breathing. Final mean body weights for the 1-day exposure and 1-day exposure - recovery group rats were similar to those of the air control group, but they were significantly decreased in the 5-day exposure (11.7% lower) and 5-day exposure - recovery rat groups (10.4% lower) at 10 sppm TMSD relative to the air control group. Final mean body weight gains in the 5-day exposure and 5-day exposure - recovery rat groups at 10 sppm TMSD were also significantly decreased relative to the air control groups. Absolute and relative lung weights were significantly decreased in the 1-day exposure rat group at 10 sppm TMSD. Absolute and relative lung weights of rats were significantly increased in the three other exposure groups at the same or lower exposure concentrations: 1-day exposure - recovery group at 10 sppm TMSD, 5-day exposure group at 3 sand 10 sppm TMSD, and 5-day exposure - recovery group at ≥0.3 sppm TMSD exposure concentrations. No exposure-related histopathological lesions were present in the 1-day exposure and 1-day exposure - recovery rat groups at 10 sppm TMSD. In the 5-day exposure and 5-day exposure - recovery groups, increased incidences of lung histopathological lesions included chronic-active inflammation (≥3 sppm), histiocyte (alveolar macrophage) infiltration (3 sppm), interstitial fibrosis (10 sppm), pulmonary edema (10 sppm), acute hemorrhage (10 sppm), and alveolar and bronchiolar epithelial hyperplasia (10 sppm). Alveolar and bronchiolar epithelial hyperplasia were also noted at 3 sppm TMSD in the 5-day exposure group. In addition, increased incidences of histiocyte infiltration in the mediastinal lymph nodes were observed in all rats exposed to 10 sppm TMSD in the 5-day exposure and 5-day exposure - recovery groups. Inhaled TMSD was more toxic in mice than in rats. Five mice in the 1-day exposure - recovery group and all mice in the 5-day exposure and 5-day exposure - recovery groups died or were euthanized prior to scheduled termination after only one to three exposures, and 19/24 (79%) of the 10 sppm-exposed mice exhibited labored breathing. In the 5-day exposure - recovery group exposed to 3 sppm, all mice (8/8) exhibited labored breathing. Final mean body weights for the 1-day exposure group were similar to the air control group. In the 1-day exposure - recovery group, final mean body weights of the three mice remaining at study day s9 were significantly decreased (26.8% less than the air control group); final mean body weight gain was also significantly decreased in this group. Final mean body weights were significantly decreased in the 5-day exposure group mice at 3 sppm (10.2% lower) and 10 sppm (16.5% lower) and also in the 5-day exposure - recovery group mice at 3 sppm (21.7% lower) and 10 sppm (18.4% lower). Final mean body weight gains were also significantly decreased in both the 5-day exposure group (3 sppm) and the 5-day exposure - recovery group (1 and 3 sppm). Absolute and relative lung weights were significantly increased in the 1-day exposure and 1-day exposure - recovery mouse groups at 10 sppm TMSD, in the 5-day exposure group mice at ≥0.3 sppm, and in the 5-day exposure - recovery group mice at ≥1 sppm. Increased incidences of lung histopathological lesions in mice were similar to those observed in rats, but also included necrosis and acute inflammation and were observed at greater incidences in the 1 and 3 sppm groups. In addition, lesions occurred in the larynx of mice exposed to 3 and 10 sppm TMSD, which included squamous epithelial hyperplasia and ulceration and acute inflammation. Lung and laryngeal lesions in the 1-day exposure - recovery mouse group at 10 sppm TMSD were similar to those in the 5-day exposure - recovery mouse group but occurred at lower incidences. This in vivo study showed that inhaled TMSD at low vapor concentrations (≤10 sppm) caused acute and progressive lung injury, as reported in human case studies (in particular, pulmonary edema), and that these effects can occur after a single 30-minute exposure to the chemical. These data provide useful information for mitigating exposure risks in the workplace and alerting chemical suppliers to the dangers of TMSD.SYNONYMS: (trimethylsilyl) diazomethane; diazo((trimethylsilyl))methane; diazomethyl(trimethyl)silane; (diazomethyl)trimethylsilane; diazomethyltrimethyl silane; silane, (diazomethyl)trimethyl-; TMS-diazomethane; TMSCHN2.
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