Wound repair is a multicellular tissue that is organized by development and muscle that characterizes
local formation in the skin. This stem contains the simple functions of several types of cells, including
keratinocytes, fibroblasts, endothelial cells, macrophages, and platelets. The repair, penetration,
expansion, and division of these cells complete the circle through violent reactions, organization of new
tissue, and finally closure. The exudative, proliferative, and extracellular stages of bone remodeling are
events that result from a combination of cellular forms that include soluble mediators, blood cells, and
parenchymal cells. Exudative shock occurs after injury and contributes to the improvement of tissue
edema. Proliferative tissue tries to reduce the area of tissue damage by contracting myofibroblasts and
fibroplasia. Forms of angiogenesis and re-epithelialization can still be seen in this tissue. To explain the
mechanisms of dynamic wound healing, a comprehensive understanding of healing stem cells,
polymers, and potential biologic compounds, extending to healing devices for wound management, is
considered a key technique that physicians and technicians must understand. Biological agents are used
to heal wounds. An advanced overview of the potential of biomaterials and their applications in wound
healing and treatment, with the aim of providing a systematic system for the identification and
application of bioactive polymers and Biomedical devices.
Keywords: Repair, Proliferative, epithelization, Wound-healing, penetration
Publication date: 01/07/2025
https://ijbpas.com/pdf/2025/July/MS_IJBPAS_2025_9193.pdf
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https://doi.org/10.31032/IJBPAS/2025/14.7.9193
