Beagle dogs that were part of a life span study of the effects of low-level ionizing radiation during development were evaluated for the incidence of skin neoplasia and solar dermatosis. A total of 991 dogs up to 14 years of age were examined. The dogs were housed in gravel-based, outdoor pens with doghouses in a high-altitude, high-sunshine level environment. Solar dermatosis was restricted to the sparsely haired, nonpigmented abdominal skin. Skin neoplasms were either removed surgically or found at necropsy. Solar dermatosis was diagnosed in 363 of the 991 dogs, an incidence of 36.6%. There were 175 hemangiomas, hemangiosarcomas, or squamous cell carcinomas of the skin in the 991 dogs. Of these, 129 tumors occurred in dogs with, and only 46 in dogs without, solar dermatosis. Of the dogs with solar dermatosis, 93 (26%) had at least one of the three tumor types, compared to only 44 (7%) of dogs without solar dermatosis. Thirty-two dogs had multiple tumor types and solar dermatosis, compared to only two dogs with multiple tumor types and no solar dermatosis. There was a highly significant correlation (P less than 0.001) between the occurrence of these tumor types and solar dermatosis in the unpigmented abdominal skin. This correlation was strongest for the malignant neoplasms. Whole-body gamma-radiation exposures were delivered at one of three prenatal or three postnatal ages up to 1 year of age. There appeared to be an increased risk for hemangiosarcomas and squamous cell carcinomas in dogs with solar dermatosis and given gamma-ray exposures at 1 year of age. This suggests an interaction between exposures to ionizing and ultraviolet radiation.
The thyroids were evaluated in 276 control Beagles that were allowed to live out their full life span (mean = 12 years) in a closed breeding colony. Lymphocytic thyroiditis was found in 26.3% of the dogs. This lesion was characterized by lymphoplasmacytic inflammation accompanied by follicular destruction. The thyroiditis was progressive, resulting in severe atrophy of follicular tissue, and 44 dogs (15.9%) were diagnosed as hypothyroid at the time of death. In accordance with the experimental protocol, hypothyroid dogs were not given thyroxine replacement therapy. There was a high degree of heritability for the hypothyroidism. Hypothyroid dogs had an increased risk for thyroid follicular epithelial neoplasia and, in particular, for follicular adenocarcinomas. Twenty-four of the 44 hypothyroid dogs (54.5%) had one or more follicular thyroid neoplasms, whereas only 53 of the 232 (22.8%) clinically euthyroid dogs had similar tumors. Multiple thyroid tumors were present in 14 of the 44 (31.8%) hypothyroid dogs but in only 12 of the 232 (5.2%) euthyroid dogs. One or more follicular adenocarcinomas were present in 15 of the 44 (34.1%) hypothyroid dogs but in only 16 of the 232 (6.9%) euthyroid dogs. There was no difference in prevalence of hypothyroidism or tumors between the sexes. The strong association between progressive lymphocytic thyroiditis, hypothyroidism, and thyroid follicular neoplasia in these Beagles probably relates to promotion of residual follicular epithelium by chronic excess thyrotropin stimulation.
To evaluate the lifetime carcinogenic hazards of exposure to ionizing radiation during development, 1,680 beagles received whole-body exposures to 60Co gamma rays or sham exposures. Eight groups of 120 dogs each received mean doses of 15.6-17.5 or 80.8-88.3 cGy in early, mid- or late gestation, at 8, 28 or 55 days postcoitus or at 2 days after birth. Another group of 120 dogs received a mean dose of 82.6 cGy as 70-day-old juveniles and one group of 240 dogs received a mean dose of 81.2 cGy as 365-day-old young adults. Sham irradiations were given to 360 controls. Sexes were equally represented. In 1,343 dogs allowed to live out their life span, neoplasia was a major disease, contributing to mortality in 40% of the dogs. There was a significant increase in benign and malignant neoplasms occurring in young dogs (<4 years old), including fatal malignancies, after irradiation in the perinatal (late fetal and neonatal) periods. The lifetime incidence of fatal neoplasms was also increased in dogs irradiated perinatally. Three malignancies-lymphomas, hemangiosarcomas and mammary carcinomas-accounted for 51% of all fatal tumors. There was an apparent lifetime increase and earlier onset of lymphomas in dogs exposed as fetuses. Fatal hemangiosarcomas were increased in dogs irradiated early and late in gestation. Fatal mammary carcinomas were not increased by irradiation, although non-fatal carcinomas were increased after perinatal exposure. Myeloproliferative disorders and central nervous system astrocytomas appeared to be increased in perinatally irradiated dogs. These data suggest that irradiation in both the fetal and neonatal periods is associated with increased early onset and lifetime cancer risk.
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