Adenosine-loaded silk fibroin aerogel particles for wound healing

Research output: Contribution to conferencePoster

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Abstract

The healing process of an injury comprises a series of steps (haemostasis, inflammation and proliferation/maturation). Exudate from wounds is a natural response to heal. However, an excess production can compromise and delay the inflammatory phase, resulting in chronicity. Novel biocompatible, biodegradable and adaptable dressings are sought to promote tissue regeneration, prevent infection and control inflammation. Aerogels are nanostructured dry materials with high porosity, large surface and low bulk density. Bio-based aerogels, from natural polymer sources, can provide advanced performance for wound healing; also, they can act as carriers for bioactive compounds.[1] Adenosine (ADO) is a nucleoside that is expected to trigger the healing process of chronic wounds, promoting angiogenesis and regeneration.[2] Silk fibroin (SF) aerogels can act as promising carriers of bioactive molecules while supporting cell proliferation. Hereupon, SF aerogels loaded with Adenosine were developed in the form of particles for wound healing applications, using supercritical CO2 technology.
Original languageEnglish
Number of pages1
Publication statusPublished - 2022
EventAerogels for Biomedical Applications: Training School - Katholieke Universiteit Leuven, Leuven, Belgium
Duration: 7 Jun 202210 Jun 2022

Workshop

WorkshopAerogels for Biomedical Applications
Country/TerritoryBelgium
CityLeuven
Period7/06/2210/06/22
OtherAerogels are a special class of nanostructured materials with very high porosity and tunable physicochemical properties. Research in aerogels is a rapidly growing multidisciplinary field combining engineering, chemistry, physics, medicine, life sciences and including regenerative medicine and tissue engineering. In this training school we will share presentations of experts working with fabrication and characterization, pharmaceutical applications, tissue engineering and regenerative medicine, biomaterials, scaffolds, and cell-surface interactions. It is a unique opportunity to discover and exploit the new frontiers of this exciting field and to highlight the relevance of Aerogels expertise of Aerogels-COST partners to advance the state of the art of materials for biomedical applications. Joint contribution of European Polysaccharide Network of Excellence (EPNOE) will also be possible.

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