Bianka Progri scite author profile

et al. 2022

IJMS

Tissue expansion is an integral procedure of the vast majority of breast reconstruction and has a significant impact on the final clinical outcomes. Therefore, technological advances leading to a fewer number of unfavorable outcomes and a decrease in complication rates are imperative. In this study, using a porcine model, we investigated an effect of acellular dermal matrix (ADM) used as a tissue expander cover on the dermal changes induced by mechanical forces during tissue expansion. After 14 days of expansion, skin samples were collected from one animal, while the second animal underwent radiation, and tissue was collected 8 weeks later. Tissue expanded without the use of ADM and unexpanded skin served as the controls. Collected skin biopsies were used for histological and immunohistochemical evaluation, and for gene expression analysis. We revealed that the biological cover incorporation into host tissue is facilitated by macrophages without inducing a broad inflammatory response. The utilization of ADM mitigated disruption in the dermal structure, excessive collagen deposition, and capsule formation in non-irradiated expanded skin. The protective effect was not fully maintained in irradiated skin. These results demonstrate that tissue expansion might be improved by using the tissue expander cover.

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Tissue Expansion Stimulates Regenerative Processes in Irradiated Skin

Ledwon¹,

Applebaum²,

Progri³

et al. 2022

Acellular dermal matrix cover improves skin growth during tissue expansion by affecting distribution of mechanical forces

et al. 2023

fficient skin growth during tissue expansion is critical for obtaining satisfactory outcomes from reconstructive operations. Despite many years of practice, tissue expansion still relies mostly on the surgeon's skills and expertise, and on the innate ability of the skin to grow in response to mechanical forces. 1 According to the American Society of Plastic Surgeons in 2018, 61% of two-stage breast reconstruction cases involving a tissue expander performed in the United States used a biologically derived acellular dermal matrix (ADM), 2 even though use of ADM or any other biological cover for the tissue expander has yet to be approved by the U.S. Food and Drug Administration for this specific purpose. Lack of requisite animal studies demonstratingBackground: Biological cover over tissue expander prostheses has been introduced to provide soft-tissue support for tissue expanders during breast reconstruction. However, its impact on mechanically induced skin growth remains unknown. This study investigates the hypothesis that covering the tissue expander with acellular dermal matrix (ADM) affects mechanotransduction without compromising the efficacy of tissue expansion. Methods: Tissue expansion, with and without use of ADM, was performed on a porcine model. The tissue expanders were inflated twice with 45 mL of saline, and the full-thickness skin biopsy specimens were harvested from expanded and control unexpanded skin 1 week and 8 weeks after the final inflation. Histologic evaluation, immunohistochemistry staining, and gene expression analysis were performed. Skin growth and total deformation were evaluated using isogeometric analysis. Results: The authors' results demonstrate that use of ADM as a biological cover during tissue expansion does not impede mechanotransduction that leads to skin growth and blood vessel formation. Isogeometric analysis revealed similar total deformation and growth of expanded skin with and without a biological cover, confirming that its use does not inhibit mechanically induced skin growth. In addition, the authors found that use of an ADM cover results in more uniform distribution of mechanical forces applied by the tissue expander. Conclusions: These results suggest that ADM improves mechanically induced skin growth during tissue expansion by facilitating a more uniform distribution of mechanical forces applied by the tissue expander. Therefore, the use of a biological cover has potential to improve outcomes in tissue expansion-based reconstruction.

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QS69. The Biological Role of Acellular Dermal Matrix in Improving Outcomes of Tissue Expansion When Subject to Radiation Therapy

et al. 2022

44. The Effect of Acellular Dermal Matrix on Skin Growth and Collagen Deposition Induced by Tissue Expansion

et al. 2023