Athamneh, TamaraTamaraAthamnehHajnal, AnjaAnjaHajnalNajjar, Mohammad Ahmad A. al-Mohammad Ahmad A. al-NajjarAlshweiat, Areen S.Areen S.AlshweiatObeidat, Rana M.Rana M.ObeidatAwad, Alaa AbuAlaa AbuAwadAl-Alwany, Ruaa R.Ruaa R.Al-AlwanyKeitel, JuliaJuliaKeitelWu, DongweiDongweiWuKieserling, HelenaHelenaKieserlingRohn, SaschaSaschaRohnKeil, ClaudiaClaudiaKeilGurikov, PavelPavelGurikov2023-04-122023-04-122023-06-01International Journal of Biological Macromolecules 239: 124238 (2023-06-01)http://hdl.handle.net/11420/15159Aerogels, especially bio-based ones, present a promising option for wound dressing; specifically, because of their low toxicity, high stability, bio-compatibility, and good biological performance. In this study, agar aerogel was prepared and evaluated as novel wound dressing material in an in vivo rat study. Agar hydrogel was prepared by thermal gelation, after that the water inside the gel was exchanged with ethanol, and finally the alcogel was dried by supercritical CO2. The textural and rheological properties of the prepared aerogel were characterized, showing that the prepared agar aerogels possess high porosity (97–98 %), high surface area (250–330 m2g−1) as well as good mechanical properties and easiness of removal from the wound site. The results of the in vivo experiments macroscopically demonstrate the tissue compatibility of the aerogels in dorsal interscapular injured rat tissue and a shorter wound healing time comparable to that of gauze-treated animals. The histological analysis underpins the reorganisation and healing of the tissue for the injured skin of rats treated with agar aerogel wound dressing within the studied time frame.en0141-81302023AerogelAgarIn vivo studyJournal Article10.1016/j.ijbiomac.2023.12423837003386Other