Sondra L. Grumbein scite author profile

Time trends for growth, body weight, survival and tumor prevalences in 144 diet control groups with a total of 5,184 male F344/N rats and 146 diet control groups with a total of 5,289 female rats ofNCI-NTP 2-yr chemical carcinogenicity studies started during an ll-yr period (1971 to 1981) in 11 toxicology testing laboratories were evaluated. Male and female rats in more recent studies grew faster and attained a higher body weight than rats from earlier studies. Survival of males showed a significantly decreasing trend over time, which may have been related to diseases associated with increasing body weight, prevalence ofleukemia and changes in criteria for euthanasia of moribund animals. The time trend for survival of females was not significant. There were highly significant(p < 0.001) positive time trends for prevalences ofleukemia, anterior pituitary tumors and thyroid C-cell tumors in both sexes, adrenal pheochromocytomas in males and mammary tumors and endometrial stromal polyps in females. The prevalence of mammary tumors in females and pituitary tumors in males had a highly significant (p < 0.01) positive association with body weight. Histological reevaluation of tumor prevalences in approximately 250 rats of each sex at each of 4 different time periods indicated that changes in diagnostic criteria may have contributed to but could not totally explain the increased prevalence ofleukemia. Changes in diagnostic criteria and the amount of tissue examined may have contributed to the increased prevalence of anterior pituitary tumors in both sexes and adrenal pheochromocytomas in males. Interlaboratory variability and changes in diet may also have contributed to the time-related trends.

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Upper Respiratory Tract Lesions in Inhalation Toxicology

Renne

Gideon

Harbo

et al. 2007

Toxicol Pathol

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This paper describes some important differences in normal histology of the upper respiratory tract of laboratory animals. It also provides examples of lesions observed or reported in the upper respiratory tract of laboratory animals, predominantly rodents, exposed via inhalation. The anatomy and physiology of upper respiratory tract tissues play a major role in the response to an insult, given that different epithelial types vary in susceptibility to injury and toxicant exposure concentrations throughout the airway vary due to airflow dynamics. Although dogs and nonhuman primates are utilized for inhalation toxicology studies, less information is available regarding sites of upper respiratory injury and types of responses in these species. Awareness of interspecies differences in normal histology and zones of transition from squamous to respiratory to olfactory epithelium in different areas of the upper respiratory tract is critical to detection and description of lesions. Repeated inhalation of chemicals, drugs, or environmental contaminants induces a wide range of responses, depending on the physical properties of the toxicant and concentration and duration of exposure. Accurate and consistent fixation, trimming, and microtomy of tissue sections using anatomic landmarks are critical steps in providing the pathologist the tools needed to compare the morphology of upper respiratory tract tissues from exposed and control animals and detect and interpret subtle differences.

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Histologic Methods and Interspecies Variations in the Laryngeal Histology of F344/N Rats and B6C3F1 Mice

et al. 1992

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Morphology of Nasal Lesions in F344/N Rats Following Chronic Inhalation Exposure to Naphthalene Vapors

et al. 2003

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Naphthalene administered by inhalation at concentrations of 10, 30, or 60 ppm for 6 hours per day, 5 days per week for 105 weeks caused nonneoplastic and neoplastic effects in nasal respiratory and olfactory regions of male and female F344/N rats. Non-neoplastic nasal effects were characterized by an increase in the incidence and severity of a complex group of lesions, including atypical hyperplasia, atrophy, chronic inflammation, and hyaline degeneration of olfactory epithelium; hyperplasia, squamous metaplasia, hyaline degeneration, and goblet cell hyperplasia of the respiratory epithelium; and hyperplasia and squamous metaplasia of mucosal glands. Neoplastic effects were characterized by the induction of two types of rare primary nasal tumors, olfactory neuroblastomas and respiratory epithelial adenomas. The incidences of olfactory neuroblastomas in males at 0 ppm, 10 ppm, 30 ppm, and 60 ppm were, respectively, 0%, 0%, 8%, and 6%, whereas in females they were 0%, 4%, 6%, and 24%. The incidences of respiratory epithelial adenomas in males at 0 ppm, 10 ppm, 30 ppm, and 60 ppm were, respectively, 0%, 12%, 17%, and 31% and in females 0%, 0%, 8%, and 4%. The olfactory neuroblastomas and respiratory epithelial adenomas were considered carcinogenic effects related to naphthalene exposure based on their relatively high incidence in exposed rats, their absence in concurrent control rats and NTP historical controls, and their rare spontaneous occurrence in rats of any strain.

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Effect of 26 week magnetic field exposures in a DMBA initiation–promotion mammary gland model in Sprague–Dawley rats

Boorman

Anderson²,

Morris³

et al. 1999

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Several studies have suggested that exposure to 50 Hz magnetic fields promote chemically induced breast cancer in rats. Groups of 100 female Sprague-Dawley rats were initiated with a single 10 mg gavage dose of 7,12-dimethylbenz[a]anthracene (DMBA) at 50 days of age followed by exposure to ambient fields (sham exposed), 50 Hz magnetic fields at either 1 or 5 Gauss (G) field intensity or 60 Hz fields at 1 G for 18.5 h/day, 7 days/week for 26 weeks. A vehicle control group without DMBA was included. Rats were palpated weekly for the presence of tumors. There was no effect of magnetic field exposure on body weight gains or the time of appearance of mammary tumors. At the end of 26 weeks, the animals were killed and the mammary tumors counted and measured. Mammary gland masses found grossly were examined histologically. The mammary gland carcinoma incidence was 96, 90, 95 and 85% (P < 0.05, decrease) for the DMBA controls, 1 G 50 Hz, 5 G 50 Hz and 1 G 60 Hz groups, respectively. The total numbers of carcinomas were 649, 494 (P < 0.05, decrease), 547 and 433 (P < 0.05, decrease) for the DMBA controls, 1 G 50 Hz, 5 G 50 Hz and 1 G 60 Hz groups, respectively. The number of fibroadenomas varied from 276 to 319, with the lowest number in the 1 G 60 Hz exposure group. Measurement of the tumors revealed no difference in tumor size between groups. In this breast cancer initiation-promotion study in female Sprague-Dawley rats, there was no evidence that 50 or 60 Hz magnetic fields promoted breast cancer under the conditions of this assay. This study does not support the hypothesis that magnetic field exposure can promote breast cancer in this rat model.

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