Abstract

Difficulties with skin graft ulceration after radiation therapy for cancer have led many to question the suitability of this method of soft-tissue coverage and its cost-effectiveness. The objective of this study was, therefore, to assess skin-graft integrity subjected to postoperative external beam irradiation in a rat model. The model consisted of a rectangular full-thickness skin graft raised and reapplied to its original bed on the dorsum of each rat. Five groups of adult male Sprague-Dawley rats (n = 8 per group) were established. Group A was the control group and was not given postoperative irradiation. Groups B, C, D, and E received postoperative unfractionated cobalt60 irradiation 4 weeks after grafting for a total dose of 15, 20, 25, or 30 Gy, respectively. Weekly skin-graft evaluation was performed for the 4 weeks after irradiation (8 weeks after surgery) by measuring areas of graft loss using computerized planimetry. After the animals were killed, histologic samples were obtained from normal unirradiated skin and from both intact and ulcerated skin-graft sites. Graft loss after irradiation of < or = 20 Gy was similar to that of the unirradiated controls. Occurring as early as 1 week after treatment, a two-fold increase in graft ulceration was observed with doses of > or = 25 Gy (p = 0.0007). Only partial healing of ulcerations was noted by the fourth week after treatment. Histologic changes associated with the irradiation of skin grafts using doses of 25 Gy or higher included hyaline degeneration, fibrinoid necrosis, telangiectasia, and edema. Granulation tissue predominated as a mechanism of healing in areas of graft ulceration. The intensity of inflammatory cell infiltrate did not correlate with radiation dose. The authors concluded that postoperative, unfractionated irradiation can induce skin-graft loss at doses of 25 Gy or higher. Fractionated irradiation or longer intervals between grafting and irradiation may increase skin-graft tolerance; however, further studies are warranted.

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