Trends in protein derived materials for wound care applications

Natural resource based polymers, especially those derived from proteins, have attracted significant attention for their potential utilization in advanced wound care applications. Protein based wound care materials provide superior biocompatibility, biodegradability, and other functionalities compare...

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Veröffentlicht in:	Biomaterials science 2024-12, Vol.13 (1), p.13-16
Hauptverfasser:	Zubair, Muhammad, Hussain, Saadat, ur-Rehman, Mujeeb, Hussain, Ajaz, Akram, Muhammad Ehtisham, Shahzad, Sohail, Rauf, Zahid, Mujahid, Maria, Ullah, Aman
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Schlagworte:	Animals Ball milling Bandages Biocompatibility Biocompatible Materials - chemistry Biomedical engineering Biomedical materials Commercialization Gelatin Humans Hydrogels - chemistry Nanomaterials Natural resources Phase separation Proteins Proteins - chemistry Self-assembly Wound healing Wound Healing - drug effects Zein
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description	Natural resource based polymers, especially those derived from proteins, have attracted significant attention for their potential utilization in advanced wound care applications. Protein based wound care materials provide superior biocompatibility, biodegradability, and other functionalities compared to conventional dressings. The effectiveness of various fabrication techniques, such as electrospinning, phase separation, self-assembly, and ball milling, is examined in the context of developing protein-based materials for wound healing. These methods produce a wide range of forms, including hydrogels, scaffolds, sponges, films, and bioinspired nanomaterials, each designed for specific types of wounds and different stages of healing. This review presents a comprehensive analysis of recent research that investigates the transformation of proteins into materials for wound healing applications. Our focus is on essential proteins, such as keratin, collagen, gelatin, silk, zein, and albumin, and we emphasize their distinct traits and roles in wound care management. Protein-based wound care materials show promising potential in biomedical engineering, offering improved healing capabilities and reduced risks of infection. It is crucial to explore the potential use of these materials in clinical settings while also addressing the challenges that may arise from their commercialization in the future. Natural resource based polymers, especially those derived from proteins, have attracted significant attention for their potential utilization in advanced wound applications.
doi_str_mv	10.1039/d4bm01099j
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Protein based wound care materials provide superior biocompatibility, biodegradability, and other functionalities compared to conventional dressings. The effectiveness of various fabrication techniques, such as electrospinning, phase separation, self-assembly, and ball milling, is examined in the context of developing protein-based materials for wound healing. These methods produce a wide range of forms, including hydrogels, scaffolds, sponges, films, and bioinspired nanomaterials, each designed for specific types of wounds and different stages of healing. This review presents a comprehensive analysis of recent research that investigates the transformation of proteins into materials for wound healing applications. Our focus is on essential proteins, such as keratin, collagen, gelatin, silk, zein, and albumin, and we emphasize their distinct traits and roles in wound care management. Protein-based wound care materials show promising potential in biomedical engineering, offering improved healing capabilities and reduced risks of infection. It is crucial to explore the potential use of these materials in clinical settings while also addressing the challenges that may arise from their commercialization in the future. 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Protein based wound care materials provide superior biocompatibility, biodegradability, and other functionalities compared to conventional dressings. The effectiveness of various fabrication techniques, such as electrospinning, phase separation, self-assembly, and ball milling, is examined in the context of developing protein-based materials for wound healing. These methods produce a wide range of forms, including hydrogels, scaffolds, sponges, films, and bioinspired nanomaterials, each designed for specific types of wounds and different stages of healing. This review presents a comprehensive analysis of recent research that investigates the transformation of proteins into materials for wound healing applications. Our focus is on essential proteins, such as keratin, collagen, gelatin, silk, zein, and albumin, and we emphasize their distinct traits and roles in wound care management. Protein-based wound care materials show promising potential in biomedical engineering, offering improved healing capabilities and reduced risks of infection. It is crucial to explore the potential use of these materials in clinical settings while also addressing the challenges that may arise from their commercialization in the future. 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subjects	Animals Ball milling Bandages Biocompatibility Biocompatible Materials - chemistry Biomedical engineering Biomedical materials Commercialization Gelatin Humans Hydrogels - chemistry Nanomaterials Natural resources Phase separation Proteins Proteins - chemistry Self-assembly Wound healing Wound Healing - drug effects Zein
title	Trends in protein derived materials for wound care applications
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