Mice were exposed to weakly penetrating beta-particles from an external source, using 12 different surface doses ranging from 5.4 to 260 Gy and given at four different dose rates from 200 to 1.7 cGy/min. As in previous investigations, both epidermal and dermal tumours occurred with the latter predominating. The lowest surface dose to produce a statistically significant increase in skin tumours was 21.7 Gy, no effect being detected with doses of 5.4-16.3 Gy. The dose-response curves rose steeply when obvious increases occurred. Consideration of these findings and the fact that radiation-induced skin tumours can have an exceptionally long latent period leads to the suggestion that there is some relatively radioresistant factor which normally restrains potential radiation-induced cancer cells in the skin from becoming tumours until the skin is subjected to high local doses. Tumour-induction was unaffected by reducing the highest dose rate by a factor of 10 and the dose-response curves were almost identical. Further reductions of dose rate, encompassing a further factor of 10, in general resulted in fewer tumours.
Effects of 250-kV X rays on epidermal Langerhans cells were studied in CBA/CaH mice. One group received 20 Gy to the feet, another 8 Gy to the whole body, and a third both the 8 Gy whole-body and a 12 Gy local dose to the feet. Mice from each group and controls were sacrificed at intervals from 1 to 64 days later. ATPase-positive cells in sheets of footpad epidermis were counted by light microscopy. The density of Langerhans cells in controls was 1515 +/- 36/mm2 (mean +/- SE; n = 34). By 3 days after irradiation they became rounded and less dendritic and numbers gradually reached a nadir by 10 days, at 18% of controls after 20 Gy and 57% of controls after 8 Gy. Some of the remainder exhibited bizarre morphology and ultrastructural abnormalities. After local irradiation of the feet Langerhans cell numbers recovered rapidly between 14 and 16 days, although their distribution was uneven until 30 days after irradiation. Repopulation was delayed after an 8 Gy whole-body dose by at least 3 weeks. These results demonstrate that high local doses of X rays substantially but transiently deplete the epidermal Langerhans cell population and support the hypothesis that functional hemopoietic tissue is required for extensive Langerhans cell replenishment.
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