Stability studies of starch aerogel formulations for 2 biomedical applications
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ISSN: 1525-7797
E-ISSN: 1526-4602
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American Chemical Society
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Abstract
Starch aerogels are attractive materials for biomedical applications because of their low density and high open porosity coupled with high surface areas. However, the lack of macropores in conventionally manufactured polysaccharide aerogels is a limitation to their use as scaffolds for regenerative medicine. Moreover, the stability under storage of polysaccharide aerogels is critical for biomedical purposes and scarcely studied so far. In this work, the induction of a new macropore population (1–2 μm) well integrated into the starch aerogel backbone was successfully achieved by the incorporation of zein as a porogen. The obtained dual-porous aerogels were evaluated in terms of composition as well as morphological, textural, and mechanical properties. Stability of aerogels upon storage mimicking the zone II (25 °C, 65% relative humidity) according to the International Council for Harmonization guideline of climatic conditions was checked after 1 and 3 months from morphological, physicochemical, and mechanical perspectives. Zein incorporation induced remarkable changes in the mechanical performance of the end aerogel products and showed a preventive effect on the morphological changes during the storage period
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This document is the unedited Author’s version of a Submitted Work that was subsequently accepted for publication in Biomacromolecules, copyright © American Chemical Society after peer review. To access the final edited and published work see https://doi.org/10.1021/acs.biomac.0c01414
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Santos-Rosales V, Alvarez-Rivera G, Hillgärtner M, Cifuentes A, Itskov M, García-González CA, Rege A. (2020). Stability studies of starch aerogel formulations for biomedical applications. Biomacromlecules, 21(12), pp. 5336-5344
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https://doi.org/10.1021/acs.biomac.0c01414Sponsors
This research was funded by Xunta de Galicia [ED431F 2016/010; ED431C 2020/17], MCIUN [RTI2018-094131-A-I00], Agrupación Estratégica de Materiales [AeMAT-BIOMEDCO2, ED431E 2018/08], Agencia Estatal de Investigación [AEI], and FEDER funds. V.S.-R. acknowledges Xunta de Galicia (Consellería de Cultura, Educación e Ordenación Universitaria) for a predoctoral research fellowship [ED481A-2018/014]. C.A.G.-G. acknowledges MINECO for a Ramón y Cajal fellowship [RYC2014-15239]. The authors would like to thank Roquette (Spain) for kindly providing the starch and Plataforma Proteómica-Metabolómica (CEI-UAM + CSIC) for the zein analysis. Work was carried out in the frame of the COST Action CA18125 “Advanced Engineering and Research of aeroGels for Environment and Life Sciences” (AERoGELS) and funded by the European Commission.