New Treatment of Wound Healing With Allogenic Acellular Human Skin Graft: Preclinical Assessment and In Vitro Study

New Treatment of Wound Healing With Allogenic Acellular Human Skin Graft: Preclinical Assessment and In Vitro Study

Nonhealing wounds can be a major clinical problem. Impaired wound healing is often related to massive tissue injury, concomitant wound healing deficiencies (chronic wounds), burn injury, or congenital conditions. We propose a novel biological dressing as an alternative surgical approach. The dressin...

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Veröffentlicht in:Transplantation proceedings 2020-09, Vol.52 (7), p.2204-2207
Hauptverfasser: Nita, M., Pliszczyński, J., Kowalewski, C., Woźniak, K., Eljaszewicz, A., Moniuszko, M., Kamiński, A., Śladowski, D., Zimek, Z., Majewski, S., Kosieradzki, M., Fiedor, P.
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Sprache:eng
Schlagworte:
Acellular Dermis
Biological Dressings
Humans
In Vitro Techniques
Multipotent Stem Cells - transplantation
Skin Transplantation - methods
Tissue Engineering - methods
Transplantation, Homologous
Wound Healing
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container_end_page 2207
container_issue 7
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container_title Transplantation proceedings
container_volume 52
creator Nita, M.
Pliszczyński, J.
Kowalewski, C.
Woźniak, K.
Eljaszewicz, A.
Moniuszko, M.
Kamiński, A.
Śladowski, D.
Zimek, Z.
Majewski, S.
Kosieradzki, M.
Fiedor, P.
description Nonhealing wounds can be a major clinical problem. Impaired wound healing is often related to massive tissue injury, concomitant wound healing deficiencies (chronic wounds), burn injury, or congenital conditions. We propose a novel biological dressing as an alternative surgical approach. The dressing is a form of an allogenic human skin graft equivalent with further use of allogeneic stem cells classified as an advanced therapy medicinal product. This new allogenic acellular human skin graft has been specifically developed to address the clinical indications for dressing wound lesions and promoting tissue repair in specific rare genetic diseases. This case report illustrates the use of an acellular human skin allograft seeded with multipotent stem cells in the treatment of tissue injuries (burns), congenital conditions, and chronic wounds. Donor-tissue processing yields an acellular dermal matrix with integral collagen bundling and organization, as well as an intact basement membrane complex. Preclinical observations show prolonged viability of acellular human skin grafts with multipotent stem cells. This was confirmed with histological and electron-microscopic evaluation of biopsies, which demonstrated host-cell infiltration and neovascularization of the biological dressing. Moreover, the dressings were characterized by low immunogenicity, as confirmed by histology exam and T-cell proliferation assays in vitro. Our data confirmed the safety and efficacy of the evaluated acellular human skin grafts, which may be used in patients with rare diseases, such as epidermolysis bullosa, burn injuries, and chronic wounds.
doi_str_mv 10.1016/j.transproceed.2020.02.115
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Impaired wound healing is often related to massive tissue injury, concomitant wound healing deficiencies (chronic wounds), burn injury, or congenital conditions. We propose a novel biological dressing as an alternative surgical approach. The dressing is a form of an allogenic human skin graft equivalent with further use of allogeneic stem cells classified as an advanced therapy medicinal product. This new allogenic acellular human skin graft has been specifically developed to address the clinical indications for dressing wound lesions and promoting tissue repair in specific rare genetic diseases. This case report illustrates the use of an acellular human skin allograft seeded with multipotent stem cells in the treatment of tissue injuries (burns), congenital conditions, and chronic wounds. Donor-tissue processing yields an acellular dermal matrix with integral collagen bundling and organization, as well as an intact basement membrane complex. Preclinical observations show prolonged viability of acellular human skin grafts with multipotent stem cells. This was confirmed with histological and electron-microscopic evaluation of biopsies, which demonstrated host-cell infiltration and neovascularization of the biological dressing. Moreover, the dressings were characterized by low immunogenicity, as confirmed by histology exam and T-cell proliferation assays in vitro. 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subjects Acellular Dermis
Biological Dressings
Humans
In Vitro Techniques
Multipotent Stem Cells - transplantation
Skin Transplantation - methods
Tissue Engineering - methods
Transplantation, Homologous
Wound Healing
title New Treatment of Wound Healing With Allogenic Acellular Human Skin Graft: Preclinical Assessment and In Vitro Study
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