Subcutaneous calcification of the lower legs in a patient with mixed connective tissue disease.

A 56-year-old woman who had been treated for mixed connective tissue disease (MCTD) noticed a skin ulcer on the lower leg. There was no history of trauma. X-rays of the lower legs showed extensive calcification in the soft tissue. Biopsied tissue from the ulcer showed marked calcium deposition with necrosis. Laboratory findings revealed normal serum calcium and phosphate levels and normal parathyroid function. On the basis of these findings, we diagnosed skin ulcer due to subcutaneous dystrophic calcification associated with MCTD. The ulcer was gradually reduced in size and epithelialized by treatment with local debridement and antibiotics.

Clinical evaluation of allogeneic cultured dermal substitutes for intractable skin ulcers after tumor resection.

Clinical research on allogeneic cultured dermal substitute (CDS), which was newly developed at the R&D Center for Artificial Skin of Kitasato University, has been carried out in medical centers across Japan with the support of the Millennium Project of the Ministry of Health, Labor and Welfare of Japan. Allogeneic CDS was prepared by cultivation of fibroblasts on a two-layered spongy matrix of hyaluronic acid and atelo-collagen. This paper reports the clinical results of application of allogeneic CDS in 12 patients with full-thickness skin defects after surgical resection of skin tumors. In 9 of 10 patients, healthy granulation tissue developed immediately, allowing us to perform split-thickness skin grafts at an early stage. In two cases, allogeneic CDS was used to cover an expanded mesh skin graft that had been applied to treat a large ulcer, and rapid epithelization was observed. No patient developed local infection nor local tumor recurrence after treatment with CDS. The spongy matrix itself as well as the vascular endothelial growth factor (VEGF) released by the allogeneic CDS seemed to be beneficial for the treatment of intractable skin ulcers. Allogeneic CDS functions as an excellent biological dressing, and could dramatically change the treatment of intractable skin ulcers.