Direct and green production of sterile aerogels using supercritical fluid technology for biomedical applications

IF 7.2 2区 工程技术 Q1 CHEMISTRY, MULTIDISCIPLINARY Journal of CO2 Utilization Pub Date : 2024-08-01 DOI:10.1016/j.jcou.2024.102891
María Carracedo-Pérez , Inés Ardao , Clara López-Iglesias , Beatriz Magariños , Carlos A. García-González
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Abstract

Aerogels based on natural polymers are of increasing interest in the biomedical field due to their biocompatibility, bioactivity, biodegradability and, in certain cases, extracellular matrix biomimicry. However, sterility has been a critical quality attribute limiting the use of aerogels in biomedicine. This work introduces a new and environmental-friendly technique based on the use of CO2 called in situ sterilization that enables the manufacturing of sterile aerogel in a one-pot process. Starch aerogel cylinders and alginate aerogel beads enclosed within sterilization pouches were produced using this approach. The study involved the redesign of the flow diagram for aerogel production and the study of the effect of key parameters in the process (additive type and content, agitation, CO2 flow regime type and duration) on the resulting material. The obtained materials were evaluated regarding their texture (helium pycnometry, N2 adsorption-desorption analysis, SEM) and their sterility against three standardized bioindicators. Finally, the sterile aerogel materials were put in contact with NIH-3T3 cells assessing their cytocompatibility. Under the optimal operating conditions with 4.5 h of processing time, the aerogels were sterile, cytocompatible and had a porosity of ca. 80 % and a specific surface area of ca. 80 m2/g and 200 m2/g, for starch and alginate aerogels, respectively. Results allowed to identify the feasible operating region as well as the optimum processing values to obtain the typical nanostructure of aerogels, whilst ensuring suitable regulatory sterilization levels for aerogel implantation and cytocompatibility of the sterile material with fibroblastic cells.

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利用超临界流体技术直接绿色生产无菌气凝胶,用于生物医学应用
基于天然聚合物的气凝胶具有生物相容性、生物活性、生物可降解性,在某些情况下还具有细胞外基质生物仿生性,因此在生物医学领域越来越受到关注。然而,无菌性一直是限制气凝胶在生物医学领域应用的关键质量属性。这项工作介绍了一种基于二氧化碳灭菌的新型环保技术,该技术可通过单锅工艺制造无菌气凝胶。利用这种方法生产出了灭菌袋中的淀粉气凝胶圆柱体和海藻酸气凝胶珠。研究包括重新设计气凝胶生产流程图,以及研究工艺中的关键参数(添加剂类型和含量、搅拌、CO 流动机制类型和持续时间)对所得材料的影响。对所得材料的质地(氦气比重测定法、氮吸附-解吸分析、扫描电镜)和无菌性进行了评估,并与三种标准化生物指标进行了比较。最后,将无菌气凝胶材料与 NIH-3T3 细胞接触,评估其细胞相容性。在加工时间为 4.5 小时的最佳操作条件下,气凝胶具有无菌性和细胞相容性,淀粉气凝胶和海藻酸气凝胶的孔隙率分别为 80%,比表面积分别为 80 m/g 和 200 m/g。研究结果有助于确定可行的操作区域和最佳加工值,以获得气凝胶的典型纳米结构,同时确保气凝胶植入的适当消毒水平以及无菌材料与成纤维细胞的细胞相容性。
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来源期刊
Journal of CO2 Utilization
Journal of CO2 Utilization CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL
CiteScore
13.90
自引率
10.40%
发文量
406
审稿时长
2.8 months
期刊介绍: The Journal of CO2 Utilization offers a single, multi-disciplinary, scholarly platform for the exchange of novel research in the field of CO2 re-use for scientists and engineers in chemicals, fuels and materials. The emphasis is on the dissemination of leading-edge research from basic science to the development of new processes, technologies and applications. The Journal of CO2 Utilization publishes original peer-reviewed research papers, reviews, and short communications, including experimental and theoretical work, and analytical models and simulations.
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