How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects

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How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects Publisher

Eslahi N¹ ; Soleimani F^{2, 3} ; Lotfi R⁴ ; Mohandes F⁵ ; Simchi A^{3, 6} ; Razavi M^{7, 8}

Source: Progress in Materials Science Published:2024

Abstract

Skin acts as a protective barrier for the underlying organs against external events such as irradiation of ultraviolet rays, incursion of harmful pathogens, and water evaporation. As the skin is constantly liable to damage, the wound-healing process is vital to the survival of all organisms. Materials design and development for enhanced wound healing and skin tissue regeneration have been found highly valuable in recent years. A wide range of materials and structures, including dressings and tissue-engineered substitutes composed of synthetic and/or natural biopolymers and their composites have been developed and examined. Although some have clinically been proven and are available in the market, mimicking the architecture of native extracellular matrix is still an open challenge with fundamental limitations in reproducing skin appendages, sufficient vascularization, adherence to the wound bed, and scarless wound management. Biomimetic nanofibers with tunable morphological, biological, and physicochemical features are promising candidates to overcome these drawbacks. Combined with advanced biomanufacturing and cell culturing techniques, enabling the incorporation of growth factors and stem cells within morphologically-controlled nanostructures, the fibrous structures allow the regeneration of functional skin. This paper overviews the advances in state-of-the-art strategies for designing biomimetic nanofibrous materials with a high potential for wound healing and skin regeneration. An emphasis is given to multifunctional nanocomposites with mechanobiological properties matching those of natural skin. Opportunities, challenges, and commercial status of these materials for skin repair are outlined, and their future perspective is demonstrated. The advances in smart wound management are also discussed, particularly by highlighting the potential of stimuli-responsive materials and integrated sensors in the progress of next-generation dressings for simultaneous monitoring and on-demand treatment of wounds. © 2024 Elsevier Ltd

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Style	Citing Format
MLA	Eslahi N, et al.. "How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects." Progress in Materials Science, vol. 145, no. , 2024, pp. -.
APA	Eslahi N, Soleimani F, Lotfi R, Mohandes F, Simchi A, Razavi M (2024). How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects. Progress in Materials Science, 145(), -.
Chicago	Eslahi N, Soleimani F, Lotfi R, Mohandes F, Simchi A, Razavi M. "How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects." Progress in Materials Science 145, no. (2024): -.
Harvard	Eslahi N et al. (2024) 'How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects', Progress in Materials Science, 145(), pp. -.
Vancouver	Eslahi N, Soleimani F, Lotfi R, Mohandes F, Simchi A, Razavi M. How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects. Progress in Materials Science. 2024;145():-.
BibTex	@article{ author = {Eslahi N and Soleimani F and Lotfi R and Mohandes F and Simchi A and Razavi M}, title = {How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects}, journal = {Progress in Materials Science}, volume = {145}, number = {}, pages = {-}, year = {2024} }
RIS	TY - JOUR AU - Eslahi N AU - Soleimani F AU - Lotfi R AU - Mohandes F AU - Simchi A AU - Razavi M TI - How Biomimetic Nanofibers Advance the Realm of Cutaneous Wound Management: The State-Of-The-Art and Future Prospects JO - Progress in Materials Science VL - 145 IS - SP - EP - PY - 2024 ER -

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