BACKGROUND: A laboratory-grown bilayered living skin substitute (LSS) has been shown to accelerate the healing of venous ulcers. However, issues related to optimal wound bed preparation prior to the application of LSS have not been addressed. OBJECTIVE: When combined with standard compression therapy and near elimination of wound exudate, bioengineered skin can achieve complete closure of venous ulcers which have been present for more than a year and which are difficult to heal. METHODS: In the general surgery (center A) and dermatology (center B) departments at two separate medical centers, LSS was used to treat venous ulcers of more than 1 year's duration and which had been unresponsive to conventional therapy. Wound bed preparation at both centers had as common goals the removal of necrotic tissue, optimal formation of granulation tissue, and elimination of wound exudate. RESULTS: There was great comparability between the two centers in the patients being treated, wound size and duration, and number of LSS applications. Both centers achieved a frequency of complete wound closure of greater than 70% within 6 months. CONCLUSION: At two separate clinical and specialty sites having a common goal of optimal wound preparation, treatment with LSS was associated with a high rate of complete closure of hard to heal venous ulcers.
BACKGROUND: A laboratory-grown bilayered living skin substitute (LSS) has been shown to accelerate the healing of venous ulcers. However, issues related to optimal wound bed preparation prior to the application of LSS have not been addressed. OBJECTIVE: When combined with standard compression therapy and near elimination of wound exudate, bioengineered skin can achieve complete closure of venous ulcers which have been present for more than a year and which are difficult to heal. METHODS: In the general surgery (center A) and dermatology (center B) departments at two separate medical centers, LSS was used to treat venous ulcers of more than 1 year's duration and which had been unresponsive to conventional therapy. Wound bed preparation at both centers had as common goals the removal of necrotic tissue, optimal formation of granulation tissue, and elimination of wound exudate. RESULTS: There was great comparability between the two centers in the patients being treated, wound size and duration, and number of LSS applications. Both centers achieved a frequency of complete wound closure of greater than 70% within 6 months. CONCLUSION: At two separate clinical and specialty sites having a common goal of optimal wound preparation, treatment with LSS was associated with a high rate of complete closure of hard to heal venous ulcers.
Authors: Harold Brem; Olivera Stojadinovic; Robert F Diegelmann; Hyacinth Entero; Brian Lee; Irena Pastar; Michael Golinko; Harvey Rosenberg; Marjana Tomic-Canic Journal: Mol Med Date: 2007 Jan-Feb Impact factor: 6.354
Authors: Philip Bao; Arber Kodra; Marjana Tomic-Canic; Michael S Golinko; H Paul Ehrlich; Harold Brem Journal: J Surg Res Date: 2008-05-12 Impact factor: 2.192
Authors: Adrienne M Gilligan; Curtis R Waycaster; Richard Bizier; Bong-Chul Chu; Marissa J Carter; Caroline E Fife Journal: Adv Wound Care (New Rochelle) Date: 2017-04-01 Impact factor: 4.730