Living Skin Equivalents Constructed Using Human Amnions As a Matrix

Overview

Journal J Dermatol Sci

Publisher Elsevier

Specialty Dermatology

Date 2009 Oct 27

PMID 19853413

Citations 15

Authors

Lujun Yang

Yuji Shirakata

Sho Tokumaru

Dai Xiuju

Mikiko Tohyama

Yasushi Hanakawa

Satoshi Hirakawa

Koji Sayama

Koji Hashimoto

Affiliations

Soon will be listed here.

Abstract

Background: Living skin equivalents (LSEs) are being used to treat burn wounds, skin defects, and chronic wounds, and today, several biomaterials are applied as dermal matrices in LSEs. The amnionic membrane (AM) is known to have useful properties as a dermal matrix and can be used to construct a LSE.

Objective: To develop a new LSE with human AM as the matrix.

Methods: Human AM was de-epithelialized and investigated to determine whether it supported keratinocyte adherence and proliferation, and fibroblast in-growth and proliferation. A new LSE was constructed by seeding keratinocytes on the epithelial side of fibroblast-populated, de-epithelialized AM and was investigated histologically. The LSE was transplanted onto a full-thickness wound on a nude mouse and a histological examination was conducted.

Results: De-epithelialized AM supported the adherence and proliferation of keratinocytes and the in-growth of fibroblasts. The new LSE demonstrated good mechanical properties and revealed good morphology, with a well differentiated epidermis and well developed basement membrane. The LSE grafts survived well on nude mice, showing good morphology.

Conclusion: A LSE with amnions as a matrix exhibited good morphology, low cost, and good mechanical properties and may be useful as a skin substitute for clinical use.

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Human Amniotic Membrane Enriched with Urinary Bladder Fibroblasts Promote the Re-Epithelization of Urothelial Injury.

Dragin Jerman U, Veranic P, Cirman T, Kreft M Cell Transplant. 2020; 29:963689720946668.

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The role of labeled cell therapy with and without scaffold in early excision burn wounds in a rat animal model.

Hashemi S, Pourfath M, Derakhshanfar A, Behzad-Behbahani A, Moayedi J Iran J Basic Med Sci. 2020; 23(5):673-679.

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Evaluation of Radiosterilized Glyercerolated Amniotic Membranes as a Substrate for Cultured Human Epithelial Cells.

Paggiaro A, Mathor M, Teodoro W, Isaac C, Capelozzi V, Gemperli R Organogenesis. 2020; 16(1):27-41.

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Homing of adipose stem cells on the human amniotic membrane as a scaffold: A histological study.

Zarei H, Karimpour A, Khalatbary A, Talebpour Amiri F Int J Reprod Biomed. 2020; 18(1):21-32.

PMID: 32043068 PMC: 6996125. DOI: 10.18502/ijrm.v18i1.6193.