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Query: UMLS:C0851184 (
thinning
)
11,252
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
As part of a long-term inhalation toxicity study with
acetaldehyde
in rats, progression and regression of nasal lesions were studied in animals exposed to 0, 750, 1500 and 3000/1500 ppm of the test compound for 52 weeks and killed after recovery periods of 26 or 52 weeks. Major compound-related nasal lesions found at the end of the exposure period comprised: (a)
thinning
of the olfactory epithelium with loss of sensory and sustentacular cells at all concentrations; this condition was accompanied by focal basal cell hyperplasia in low- and mid-concentration animals; (b) hyper- and metaplasia of the respiratory epithelium frequently accompanied by keratinisation and occasionally by proliferations of atypical basal cells in the top-concentration group; and (c) rhinitis in several top-concentration rats. There was strong evidence on the one hand that the hyper- and metaplastic changes found in the respiratory epithelium and the basal cell hyperplasia seen in the olfactory epithelium after 52 weeks of exposure may progress to neoplasms despite discontinuation of the treatment. On the other hand these hyper- and metaplastic changes may regress during the recovery period. Regeneration of the olfactory epithelium was evident in several low- and mid-concentration animals, but not in top-concentration rats. The regenerated epithelium was seen as a layer of stratified undifferentiated epithelium containing small nerve bundles, tiny groups of sensory cells, and groups of epithelial cells resembling acinar cells of the glands of Bowman. Furthermore, replacement of olfactory epithelium by respiratory epithelium was a frequent finding. It was concluded that rat olfactory epithelium severely damaged by
acetaldehyde
may regenerate, most probably from basal cells, provided the olfactory epithelium has not been fully destroyed.
...
PMID:Inhalation toxicity of acetaldehyde in rats. IV. Progression and regression of nasal lesions after discontinuation of exposure. 342 85
The 4-h LC50 of
acetaldehyde
in rats was determined and found to be 13,300 ppm (24.0 g/m3 air). In a 4-week study groups of 10 male and 10 female rats were exposed to 0, 400, 1000, 2200 or 5000 ppm
acetaldehyde
for 6 h/day, 5 days/week. Treatment-related changes observed at the 5000 ppm level included dyspnoea and excitation during the first 30 min of each exposure, yellow-brown fur, severe growth retardation, more neutrophils and less lymphocytes in the blood, a reduced production of urine with a high density, increased lung weights, and severe degenerative, hyperplastic and metaplastic changes of the nasal, laryngeal and tracheal epithelium. Major lesions seen at 1000 and 2200 ppm comprised growth retardation and an increased production of urine in males, slight to moderate degeneration with or without hyper- and metaplasia of the nasal epithelium, and only at 2200 ppm, minimal epithelial changes in the larynx and trachea. The only change observed at the 400 ppm level that could be attributed to
acetaldehyde
was slight degeneration of the nasal olfactory epithelium seen as loss of microvilli and
thinning
and disarrangement of the layer of epithelial cells.
...
PMID:Inhalation toxicity of acetaldehyde in rats. I. Acute and subacute studies. 712 64
