With the advent of cyclosporine, a powerful and selective immunosuppressant, comes resurgence of a long-sought goal: to transplant modules of allointegumentary/musculoskeletal tissues or components thereof for the repair of peripheral tissue defects. Because these modules of integumentary and/or musculoskeletal tissue are actually composites of various tissues, they are also known as composite tissue allografts. The immediate goal of the studies reviewed herein is to lay the foundation in transplant immunobiology for the clinical exploitation of composite tissue allografts. The objective of these continuing studies is to induce permanent acceptance of composite tissue allografts. The value of such grafts lies in their potential for complete functional and cosmetic restoration in the surgical reconstruction of tissue after full-thickness burn injury. The initial results of basic experiments with cyclosporine are extremely encouraging in regard to the clinical potential for integumentary/musculoskeletal grafts in reconstructive allotransplantation.