J Korean Soc Plast Reconstr Surg.  2008 Mar;35(2):127-133.

Evaluation of the Various Artificial Skin Substitutes Implanted onto Nude Mice

Affiliations
  • 1Institute for Human Tissue Restoration, Department of Plastic and Reconstructive Surgery, Yonsei University College of Medicine, Seoul, Korea. dkrah@yuhs.ac

Abstract

PURPOSE: The purpose of this study is to evaluate the remodeling process of the various skin substitutes in 4th and 6th weeks following the transplantation when transplanted onto nude mice.
METHODS
Three types of artificial skin substitutes, such as PLGA scaffold with keratinocyte sheets(group 1), acellular human dermis(Surederm(TM)) and keratinocyte sheet(group 2), bioengineered skin(Neoderm(TM))(group 3), were applied to the wound on nude mice. All mice were killed in 2, 4 weeks and/or 6 weeks after grafting and tissue samples were harvested from the back of mice. The changes in wound size, degree of angiogenesis, formation of basement membrane and epidermis, density of collagen fibers and neural restoration were examined.
RESULTS
There was no significant changes in wound size among the three groups. However, the size of wound decreased in the non-substituted group due to contracture. Degree of angiogenesis and systhesis of collagen or neurofilaments were mostly increased in bioengineered skin(Neoderm(TM))(group 3), followed by acellular human dermis(Surederm(TM)) and keratinocyte sheet(group 2), PLGA scaffold with keratinocyte sheets (group 1). However, group 3 and group 2 showed similar thickness of basement membrane and epidermis.
CONCLUSION
We found that degree of angiogenesis, formation of basement membrane and skin appendages, density of collagen fibers and neurofilaments can be the categories to evaluate the success of artificial skin substitution in early stages.

Keyword

Artificial skin; Efficiency evaluation

MeSH Terms

Animals
Basement Membrane
Collagen
Contracture
Epidermis
Humans
Keratinocytes
Lactic Acid
Mice
Mice, Nude
Polyglycolic Acid
Skin
Skin, Artificial
Transplants
Collagen
Lactic Acid
Polyglycolic Acid
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