In Vivo Biocompatibility Study of Electrospun Chitosan Microfiber for Tissue Engineering

机译：静电纺丝壳聚糖超细纤维在组织工程中的体内生物相容性研究

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摘要

In this work, we examined the biocompatibility of electrospun chitosan microfibers as a scaffold. The chitosan microfibers showed a three-dimensional pore structure by SEM. The chitosan microfibers supported attachment and viability of rat muscle-derived stem cells (rMDSCs). Subcutaneous implantation of the chitosan microfibers demonstrated that implantation of rMDSCs containing chitosan microfibers induced lower host tissue responses with decreased macrophage accumulation than did the chitosan microfibers alone, probably due to the immunosuppression of the transplanted rMDSCs. Our results collectively show that chitosan microfibers could serve as a biocompatible in vivo scaffold for rMDSCs in rats.

机译：在这项工作中，我们检查了静电纺丝壳聚糖微纤维作为支架的生物相容性。壳聚糖微纤维通过SEM显示三维孔结构。壳聚糖微纤维支持大鼠肌肉衍生干细胞（rMDSCs）的附着和活力。壳聚糖微纤维的皮下植入表明，与单独使用壳聚糖微纤维相比，植入含有壳聚糖微纤维的rMDSCs诱导的宿主组织反应降低，巨噬细胞积累减少，这可能是由于移植的rMDSCs的免疫抑制所致。我们的研究结果共同表明，壳聚糖微纤维可以作为大鼠rMDSCs的生物相容性体内支架。

著录项

期刊名称 International Journal of Molecular Sciences
作者
Yun Mi Kang; Bit Na Lee; Jae Hoon Ko; Gyeong Hae Kim; Kkot Nim Kang; Da Yeon Kim; Jae Ho Kim; Young Hwan Park; Heung Jae Chun; Chun Ho Kim; Moon Suk Kim;
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作者单位

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年(卷),期 2010(11),10
年度 2010
页码 4140–4148
总页数 9
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
electrospun chitosan microfibers scaffold stem cell;

机译：电纺;壳聚糖;微纤维;支架;干细胞;

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专利

1. In Vivo Biocompatibility Study of Electrospun Chitosan Microfiber for Tissue Engineering [J] . Bit Na Lee, Chun Ho Kim, Da Yeon Kim, International Journal of Molecular Sciences . 2010,第10期

机译：静电纺丝壳聚糖超细纤维在组织工程中的体内生物相容性研究
2. Electrospun aligned poly(propylene carbonate) microfibers with chitosan nanofibers as tissue engineering scaffolds [J] . Jing Xin, Mi Hao-Yang, Peng Jun, Carbohydrate Polymers: Scientific and Technological Aspects of Industrially Important Polysaccharides . 2015,第Null期

机译：以壳聚糖纳米纤维为组织工程支架的静电纺聚碳酸亚丙酯超细纤维
3. Electrospun chitosan/poly(vinyl alcohol) reinforced with CaCO3 nanoparticles with enhanced mechanical properties and biocompatibility for cartilage tissue engineering [J] . Sambudi Nonni Soraya, Sathyamurthy Madhavi, Lee Gyun Min, Composites Science and Technology . 2015,第jana16期

机译：CaCO3纳米颗粒增强的静电纺丝壳聚糖/聚乙烯醇，具有增强的机械性能和生物相容性，适用于软骨组织工程
4. In vitro and in vivo biocompatibility of carboxymethylchitosan/PAMAM dendrimer nanoparticles with potential applications in intracellular delivery strategies for bone tissue engineering and CNS [C] . Joaquim Miguel Oliveira, Susana R. Cerqueira, Vitor H. Pereira, World biomaterials congress . 2012

机译：羧甲基壳聚糖/ PAMAM树状聚合物纳米粒的体外和体内生物相容性在骨组织工程和中枢神经系统的细胞内递送策略中具有潜在应用
5. Fabrication, biocompatibility, and tissue engineering substrate analysis of polyvinyl alcohol-gelatin core-shell electrospun nanofibers. [D] . Merkle, Valerie Marie. 2013

机译：聚乙烯醇-明胶核-壳电纺纳米纤维的制备，生物相容性和组织工程基质分析。
6. Tailoring the gelatin/chitosan electrospun scaffold for application in skin tissue engineering: an in vitro study [O] . Mohamad Pezeshki-Modaress, Mojgan Zandi, Sarah Rajabi 2018

机译：量身定制明胶/壳聚糖电纺支架用于皮肤组织工程：一项体外研究
7. In Vivo Biocompatibility Study of Electrospun Chitosan Microfiber for Tissue Engineering [O] . Kang, Yun Mi, Lee, Bit Na, Ko, Jae Hoon, 2010

机译：静电纺丝壳聚糖超细纤维在组织工程中的体内生物相容性研究

In Vivo Biocompatibility Study of Electrospun Chitosan Microfiber for Tissue Engineering

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