Abstract
Background: Cell therapy holds great promise for cutaneous wound treatment but presents practical and clinical challenges, mainly related to the lack of a supportive and inductive microenvironment for cells after transplantation. Main: This review delineates the challenges and opportunities in cell therapies for acute and chronic wounds and highlights the contribution of biofabricated matrices to skin reconstruction. The complexity of the wound healing process necessitates the development of matrices with properties comparable to the extracellular matrix in the skin for their structure and composition. Over recent years, emerging biofabrication technologies have shown a capacity for creating complex matrices. In cell therapy, multifunctional material-based matrices have benefits in enhancing cell retention and survival, reducing healing time, and preventing infection and cell transplant rejection. Additionally, they can improve the efficacy of cell therapy, owing to their potential to modulate cell behaviors and regulate spatiotemporal patterns of wound healing. Conclusion: The ongoing development of biofabrication technologies promises to deliver material-based matrices that are rich in supportive, phenotype patterning cell niches and are robust enough to provide physical protection for the cells during implantation.
Funder
Metro North Hospital and Health Service, Brisbane, Australia
Reference174 articles.
1. The use of skin models in drug development;Mathes;Adv. Drug Deliv. Rev.,2014
2. Wound healing: Cellular mechanisms and pathological outcomes;Wilkinson;Open Biol.,2020
3. Gushiken, L.F.S., Beserra, F.P., Bastos, J.K., Jackson, C.J., and Pellizzon, C.H. (2021). Cutaneous Wound Healing: An Update from Physiopathology to Current Therapies. Life, 11.
4. Wound Healing: A Cellular Perspective;Rodrigues;Physiol. Rev.,2019
5. Comprehensive Analysis of Cell Therapy on Chronic Skin Wound Healing: A Meta-Analysis;Dong;Hum. Gene Ther.,2021
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