BACKGROUND: Tissue engineering of skin with near-normal anatomy is an intriguing novel strategy to attack the still unsolved problem of how to ideally cover massive full-thickness skin defects. After successful production of large, pig cell-derived skin analogues, we now aim at developing an appropriate large animal model for transplantation studies. MATERIALS AND METHODS: In four adult Swiss pigs, full-thickness skin defects, measuring 7.5 × 7.5 cm, were surgically created and then shielded against the surrounding skin by a new, self-designed silicone chamber. In two animals each, Integra dermal regeneration templates or cultured autologous skin analogues, respectively, were applied onto the wound bed. A sophisticated shock-absorbing dressing was applied for the ensuing 3 weeks. Results were documented photographically and histologically. RESULTS: All animals survived uneventfully. Integra healed in perfectly, while the dermo-epidermal skin analogues showed complete take of the dermal compartment but spots of missing epidermis. The chamber proved effective in precluding ("false positive") healing from the wound edges and the special dressing efficiently kept the operation site intact and clean for the planned 3 weeks. CONCLUSION: We present a novel and valid pig model permitting both transplantation of large autologous, laboratory-engineered skin analogues and also keeping the site of intervention undisturbed for at least three postoperative weeks. Hence, the model will be used for experiments testing whether such large skin analogues can restore near-normal skin, particularly in the long term. If so, clinical application can be envisioned.
BACKGROUND: Tissue engineering of skin with near-normal anatomy is an intriguing novel strategy to attack the still unsolved problem of how to ideally cover massive full-thickness skin defects. After successful production of large, pig cell-derived skin analogues, we now aim at developing an appropriate large animal model for transplantation studies. MATERIALS AND METHODS: In four adult Swiss pigs, full-thickness skin defects, measuring 7.5 × 7.5 cm, were surgically created and then shielded against the surrounding skin by a new, self-designed silicone chamber. In two animals each, Integra dermal regeneration templates or cultured autologous skin analogues, respectively, were applied onto the wound bed. A sophisticated shock-absorbing dressing was applied for the ensuing 3 weeks. Results were documented photographically and histologically. RESULTS: All animals survived uneventfully. Integra healed in perfectly, while the dermo-epidermal skin analogues showed complete take of the dermal compartment but spots of missing epidermis. The chamber proved effective in precluding ("false positive") healing from the wound edges and the special dressing efficiently kept the operation site intact and clean for the planned 3 weeks. CONCLUSION: We present a novel and valid pig model permitting both transplantation of large autologous, laboratory-engineered skin analogues and also keeping the site of intervention undisturbed for at least three postoperative weeks. Hence, the model will be used for experiments testing whether such large skin analogues can restore near-normal skin, particularly in the long term. If so, clinical application can be envisioned.
Authors: Rostislav V Shevchenko; Paul D Sibbons; Justin R Sharpe; S Elizabeth James Journal: Wound Repair Regen Date: 2008 Mar-Apr Impact factor: 3.617
Authors: Mark M Melendez; Rodrigo R Martinez; Alexander B Dagum; Steve A McClain; Marcia Simon; Joseph Sobanko; Thomas Zimmerman; Meredith Wetterau; Douglas Muller; Xiaoti Xu; Adam J Singer; Balvantray Arora Journal: Can J Plast Surg Date: 2008
Authors: Thomas Biedermann; Luca Pontiggia; Sophie Böttcher-Haberzeth; Sasha Tharakan; Erik Braziulis; Clemens Schiestl; Martin Meuli; Ernst Reichmann Journal: J Invest Dermatol Date: 2010-04-08 Impact factor: 8.551
Authors: Luca Pontiggia; Thomas Biedermann; Martin Meuli; Daniel Widmer; Sophie Böttcher-Haberzeth; Clemens Schiestl; Jörg Schneider; Erik Braziulis; Irene Montaño; Claudia Meuli-Simmen; Ernst Reichmann Journal: J Invest Dermatol Date: 2008-08-21 Impact factor: 8.551
Authors: Sophie Böttcher-Haberzeth; Thomas Biedermann; Agnieszka S Klar; Luca Pontiggia; Jürgen Rac; David Nadal; Clemens Schiestl; Ernst Reichmann; Martin Meuli Journal: Pediatr Surg Int Date: 2014-02 Impact factor: 1.827
Authors: Sophie Böttcher-Haberzeth; Agnieszka S Klar; Thomas Biedermann; Clemens Schiestl; Claudia Meuli-Simmen; Ernst Reichmann; Martin Meuli Journal: Pediatr Surg Int Date: 2012-11-30 Impact factor: 1.827