Epidermal regeneration by micrograft transplantation with immediate 100-fold expansion

Florian Hackl¹, Juri Bergmann, Scott R Granter, Taro Koyama, Elizabeth Kiwanuka, Baraa Zuhaili, Bohdan Pomahac, Edward J Caterson, Johan P E Junker, Elof Eriksson

Affiliations

PMID: 22373992
DOI: 10.1097/PRS.0b013e318241289c

Epidermal regeneration by micrograft transplantation with immediate 100-fold expansion

Florian Hackl et al. Plast Reconstr Surg. 2012 Mar.

. 2012 Mar;129(3):443e-452e.

doi: 10.1097/PRS.0b013e318241289c.

Authors

Florian Hackl¹, Juri Bergmann, Scott R Granter, Taro Koyama, Elizabeth Kiwanuka, Baraa Zuhaili, Bohdan Pomahac, Edward J Caterson, Johan P E Junker, Elof Eriksson

Affiliation

¹ Boston, Mass. From the Division of Plastic Surgery and the Department of Pathology, Brigham and Women's Hospital, Harvard Medical School.

PMID: 22373992
DOI: 10.1097/PRS.0b013e318241289c

Abstract

Background: Major loss of skin following burns or trauma requires skin grafting for repair. In addition, chronic wounds frequently require skin grafts. Current treatments are either cumbersome, limited in possible expansion ratio, costly, or require extensive time for treatment. This study investigates a new way of regenerating skin after major burns and other trauma, providing 100-fold expansion of a split-thickness skin graft.

Methods: Submillimeter micrografts were created by controlled mincing of a split-thickness skin graft and transplanted to porcine full-thickness wounds. By creating an incubator-like microenvironment using wound chambers, the micrografts provide reepithelialization whether placed dermal side up or dermal side down.

Results: Transplantation of micrografts in a 1:100 expansion ratio results in complete epithelialization of both healthy and diabetic wounds within 14 days. In comparison, nontransplanted wounds showed 62 percent reepithelialization in healthy pigs and 49 percent in diabetic pigs at the corresponding time point.

Conclusions: Minced skin micrografts are very effective in wound repair and can provide 100-fold expansion of a skin graft. Early clinical results confirm the utility of this technique.

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References

1. Brusselaers N, Pirayesh A, Hoeksema H, et al.. Skin replacement in burn wounds. J Trauma 2010;68:490–501.
1. Chern PL, Baum CL, Arpey CJ. Biologic dressings: Current applications and limitations in dermatologic surgery. Dermatol Surg. 2009;35:891–906.
1. Meek CP. Successful microdermagrafting using the Meek-Wall microdermatome. Am J Surg. 1958;96:557–558.
1. Meek CP. Extensive severe burn treated with enzymatic debridement and microdermagrafting: Case report. Am Surg. 1963;29:61–64.
1. Tanner JC Jr, Vandeput J, Olley JF. The mesh skin graft. Plast Reconstr Surg. 1964;34:287–292.

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R01 GM51449/GM/NIGMS NIH HHS/United States

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Epidermal regeneration by micrograft transplantation with immediate 100-fold expansion

Affiliation

Epidermal regeneration by micrograft transplantation with immediate 100-fold expansion

Authors

Affiliation

Abstract

References

Publication types

MeSH terms

Grants and funding

LinkOut - more resources

Full Text Sources

Other Literature Sources

Medical