RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H
There is an emerging challenge to source for biocompatible and biodegradable green materials for wound dressing. Rising concern for safety and an increasing need to reduce environmental depletion risk, has urged researchers to seek for a sustainable alternative. A recent wound management system outl...
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Office of the Deputy Vice-Chancellor (Research & Innovation)
2022
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my.uitm.ir.723362023-01-04T04:13:35Z https://ir.uitm.edu.my/id/eprint/72336/ RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H Abdul Hair, Ainul Hafiza Medical education. Medical schools. Research Emergency surgery. Wounds and injuries There is an emerging challenge to source for biocompatible and biodegradable green materials for wound dressing. Rising concern for safety and an increasing need to reduce environmental depletion risk, has urged researchers to seek for a sustainable alternative. A recent wound management system outlined that the wound dressing must be able to cover the skin injury and support as well as accelerate four stages of wound healing mechanism: haemostasis, inflammation, proliferation, and remodelling. To this day, wound dressing covers various therapeutic characteristics, for instance, providing an incessant wet environment to hold adequate moisture, antibacterial properties to reduce infection, excipient for control release of drugs, and permeable to gas exchange. When these properties are achieved, efficient wound dressing can significantly reduce the number of dressings throughout the healing period. Henceforth, a reduced time, cost-effective, and absence of likelihood of a secondary injury upon dressing removal can decrease the sense of pain. Office of the Deputy Vice-Chancellor (Research & Innovation) 2022 Article PeerReviewed text en https://ir.uitm.edu.my/id/eprint/72336/1/72336.pdf RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H. (2022) RISE: Catalysing Global Research Excellence, 2: 17. pp. 49-50. ISSN 2805-5883 |
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Medical education. Medical schools. Research Emergency surgery. Wounds and injuries Abdul Hair, Ainul Hafiza RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H |
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There is an emerging challenge to source for biocompatible and biodegradable green materials for wound dressing. Rising concern for safety and an increasing need to reduce environmental depletion risk, has urged researchers to seek for a sustainable alternative. A recent wound management system outlined that the wound dressing must be able to cover the skin injury and support as well as accelerate four stages of wound healing mechanism:
haemostasis, inflammation, proliferation, and remodelling. To this day, wound dressing covers various therapeutic characteristics, for instance, providing an incessant wet environment to hold adequate moisture, antibacterial properties to reduce infection, excipient for control release of drugs, and permeable to gas exchange. When these properties are achieved, efficient wound dressing can significantly reduce the number of dressings throughout the healing period. Henceforth, a reduced time, cost-effective, and absence of likelihood of a secondary injury upon dressing removal can decrease the sense of pain. |
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Abdul Hair, Ainul Hafiza |
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RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H |
title_short |
RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H |
title_full |
RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H |
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RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H |
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RISE: Green polysaccharides for wound healing / Ainul Hafiza A.H |
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rise: green polysaccharides for wound healing / ainul hafiza a.h |
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Office of the Deputy Vice-Chancellor (Research & Innovation) |
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2022 |
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https://ir.uitm.edu.my/id/eprint/72336/1/72336.pdf https://ir.uitm.edu.my/id/eprint/72336/ |
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