Repository logo
 
Profile Picture
Person

García-González, Carlos A

Metadata only
9D16-C1D8-7567
0000-0001-9542-3679

Filters

20192
Reset filters

Settings

Author: Santos-Rosales, Víctor ×

Search Results

Now showing 1 - 2 of 2
  • Sterile and dual-porous aerogels scaffolds obtained through a multistep supercritical CO2-based approach
    Publication . Santos-Rosales, Víctor; Ardao, Inés; Alvarez-Lorenzo, Carmen; Ribeiro, Nilza; Oliveira, Ana L.; García-González, Carlos A.
    Aerogels from natural polymers are endowed with attractive textural and biological properties for biomedical applications due to their high open mesoporosity, low density, and reduced toxicity. Nevertheless, the lack of macroporosity in the aerogel structure and of a sterilization method suitable for these materials restrict their use for regenerative medicine purposes and prompt the research on getting ready-to-implant dual (macro + meso)porous aerogels. In this work, zein, a family of proteins present in materials for tissue engineering, was evaluated as a sacrificial porogen to obtain macroporous starch aerogels. This approach was particularly advantageous since it could be integrated in the conventional aerogel processing method without extra leaching steps. Physicochemical, morphological, and mechanical characterization were performed to study the effect of porogen zein at various proportions (0:1, 1:2, and 1:1 zein: starch weight ratio) on the properties of the obtained starch-based aerogels. From a forward-looking perspective for its clinical application, a supercritical CO2 sterilization treatment was implemented for these aerogels. The sterilization efficacy and the influence of the treatment on the aerogel final properties were evaluated mainly in terms of absence of microbial growth, cytocompatibility, as well as physicochemical, structural, and mechanical modifications.
    2019Journal article Open access Show more
  • A new era for sterilization based on supercritical CO2 technology
    Publication . Ribeiro, Nilza; Soares, Gonçalo C.; Santos-Rosales, Víctor; Concheiro, Angel; Alvarez-Lorenzo, Carmen; García-González, Carlos A.; Oliveira, Ana L.
    The increasing complexity in morphology and composition of modern biomedical materials (e.g., soft and hard biological tissues, synthetic and natural‐based scaffolds, technical textiles) and the high sensitivity to the processing environment requires the development of innovative but benign technologies for processing and treatment. This scenario is particularly applicable where current conventional techniques (steam/dry heat, ethylene oxide, and gamma irradiation) may not be able to preserve the functionality and integrity of the treated material. Sterilization using supercritical carbon dioxide emerges as a green and sustainable technology able to reach the sterility levels required by regulation without altering the original properties of even highly sensitive materials. In this review article, an updated survey of experimental protocols based on supercritical sterilization and of the efficacy results sorted by microbial strains and treated materials was carried out. The application of the supercritical sterilization process in materials used for biomedical, pharmaceutical, and food applications is assessed. The opportunity of supercritical sterilization of not only replace the above mentioned conventional techniques, but also of reach unmet needs for sterilization in highly sensitive materials (e.g., single‐use medical devices, the next‐generation biomaterials, and medical devices and graft tissues) is herein unveiled.
    2019Journal article Restricted access Show more