IIT-Guwahati Scientists Developed A Nanofibrous Wound-Healing Mat IIT-Guwahati scientists have developed a nanofibrous wound-healing mat that interacts with cells and helps scar heal faster without scarring. This mat is made of PVA, a non-protein polymer mixed with silk protein and varnished with an antibiotic and epidermal growth factor. Even the wounds that are 6mm in diameter can be healed from this mat by the smart material that accelerates the healing process. This nanofibrous mat is a boon for people suffering from diabetes for whom the wound-healing process is very slow. The results of this invention were recently published in the Acta Biomaterialia journal. The team under the supervision of Professor Biman B. Mandal from the Department of Biosciences and Bioengineering, Indian Institute of Technology (IIT)- Guwahati, and the author of the paper assessed the potential of a wild non-mulberry silk and domesticated mulberry silk. As the healing process starts, body cells in the body with the progenitor cells gather around the wound site for its repair. The researchers found that the wild silk has an amino acid sequence (RGD-arginine glycine aspartate) which attracts more cells thus expediting the healing process and allowing cells to attach better. The domesticated mulberry silk does not have any amino acid sequence, and so the healing is slower comparatively. Professor Mandal said that the antibiotics have a short life span, so they have embedded the antibiotic in the matrix so that the drug releases for up to 80 hours or more, as reported by The Hindu. The team had used protein from two different types of non-mulberry silk (muga and eri) to synthesize the nanofibrous mat and then compared its performance with mats integrated during mulberry silk, and a polymer PVA, approved by the US Food and Drug Administration. The wound healing process took 18 days in case of PVA, 15 days for mulberry silk mat and 10-11 days for wild silk mat. The complete wound healing took 21 days in control. The results on wounds of people who have diabetes are yet to be published. The healing process in rabbits followed the same pathway of normal healing despite critical wounds in size; no scarring was found. There was no inflammation and were also found to be biocompatible on mice. The wounds in rabbits were treated with these silk mats, and the skin was completely regenerated. “Besides well-formed collagen bundles, the healed wounds had sebaceous glands and hair follicles when wild silk mats were used. Mulberry silk mats too closed the wound, but sebaceous glands and hair follicles were significantly fewer in number,” says Dimple Chouhan from IIT Guwahati and the first author of the paper, as reported by The Hindu.