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Neurobiol Dis. 2023 Oct 15;187:106293. doi: 10.1016/j.nbd.2023.106293. Epub 2023 Sep 13.
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Injectable Pectin-Alginate Hydrogels for Improving Vascularization and Adipogenesis of Human Fat Graft.用于改善人脂肪移植血管化和成脂作用的可注射果胶-海藻酸盐水凝胶
J Funct Biomater. 2023 Aug 2;14(8):409. doi: 10.3390/jfb14080409.
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Survivability of Titanium Implant Materials: In Vitro Simulated Inflammatory and Infectious Environment.钛植入材料的生存能力:体外模拟的炎症和感染环境。
Ann Biomed Eng. 2023 Dec;51(12):2749-2761. doi: 10.1007/s10439-023-03330-x. Epub 2023 Aug 2.
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Printing tissue-engineered scaffolds made of polycaprolactone and nano-hydroxyapatite with mechanical properties appropriate for trabecular bone substitutes.用具有适合小梁骨替代物机械性能的聚己内酯和纳米羟基磷灰石打印组织工程支架。
Biomed Eng Online. 2023 Jul 20;22(1):73. doi: 10.1186/s12938-023-01135-6.
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Chitosan/PVA Nanofibers as Potential Material for the Development of Soft Actuators.壳聚糖/聚乙烯醇纳米纤维作为开发软致动器的潜在材料
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利用细胞外囊泡介导的信号转导增强骨再生:支架设计的新见解。

Harnessing extracellular vesicles-mediated signaling for enhanced bone regeneration: novel insights into scaffold design.

机构信息

Regeneratve Medicine and Disability Research Laboratory (RMDR), Department of Biomedical Sciences, University of Illinois College of Medicine, Rockford, IL, United States of America.

Department of Chemistry, Illinois Institute of Technology (IIT), Chicago, IL, United States of America.

出版信息

Biomed Mater. 2024 Jul 4;19(5). doi: 10.1088/1748-605X/ad5ba9.

DOI:10.1088/1748-605X/ad5ba9
PMID:38917828
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11305091/
Abstract

The increasing prevalence of bone replacements and complications associated with bone replacement procedures underscores the need for innovative tissue restoration approaches. Existing synthetic grafts cannot fully replicate bone vascularization and mechanical characteristics. This study introduces a novel strategy utilizing pectin, chitosan, and polyvinyl alcohol to create interpenetrating polymeric network (IPN) scaffolds incorporated with extracellular vesicles (EVs) isolated from human mesenchymal stem cells (hMSCs). We assess the osteointegration and osteoconduction abilities of these modelsusing hMSCs and MG-63 osteosarcoma cells. Additionally, we confirm exosome properties through Transmission Electron Microscopy (TEM), immunoblotting, and Dynamic Light Scattering (DLS)., chick allantoic membrane assay investigates vascularization characteristics. The study did not includeanimal experiments. Our results demonstrate that the IPN scaffold is highly porous and interconnected, potentially suitable for bone implants. EVs, approximately 100 nm in size, enhance cell survival, proliferation, alkaline phosphatase activity, and the expression of osteogenic genes. EVs-mediated IPN scaffolds demonstrate promise as precise drug carriers, enabling customized treatments for bone-related conditions and regeneration efforts. Therefore, the EVs-mediated IPN scaffolds demonstrate promise as precise carriers for the transport of drugs, allowing for customized treatments for conditions connected to bone and efforts in regeneration.

摘要

骨替代品的日益普及以及与之相关的并发症突显了对创新组织修复方法的需求。现有的合成移植物无法完全复制骨骼的血管化和机械特性。本研究介绍了一种利用果胶、壳聚糖和聚乙烯醇创建互穿聚合物网络(IPN)支架的新策略,该支架中掺入了从人骨髓间充质干细胞(hMSC)中分离出的细胞外囊泡(EVs)。我们使用 hMSC 和 MG-63 骨肉瘤细胞评估了这些模型的骨整合和骨传导能力。此外,我们通过透射电子显微镜(TEM)、免疫印迹和动态光散射(DLS)确认了外泌体的特性。鸡胚尿囊膜测定评估了血管生成特性。该研究未包括动物实验。我们的结果表明,IPN 支架具有高度多孔和互联的特性,可能适合骨植入物。大小约为 100nm 的 EVs 可增强细胞的存活率、增殖、碱性磷酸酶活性以及成骨基因的表达。EV 介导的 IPN 支架有望成为精确的药物载体,为骨相关疾病和再生努力提供定制化治疗。因此,EV 介导的 IPN 支架有望成为药物输送的精确载体,为与骨骼相关的疾病和再生努力提供定制化治疗。