Conductive Nanofiber Scaffold for Bone Tissue Engineering

机译：骨组织工程用导电纳米纤维支架

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In order to fabricate nanofiber scaffold for bone tissue engineering, electrospinning technique was employed. This technique produces nanofiberous scaffold supporting cell adhesion, migration, and proliferation. Here, we developed a novel conductive scaffold from poly-caprolactone, gelatin, and poly aniline/graphene nanoparticles. In this study, co-electrospinning was utilized to fabricate composite electrospun scaffold. The effect of polyaniline/graphene (PAG) nanoparticles on the mechanical properties and electrical conductivity of this hybrid scaffold was investigated. The result showed that PAG nanoparticles enbance both mechanical properties and electrical conductivity of the scaffolds. The biocompatibility of the scaffold evaluated by culturing rat bone marrow-derived mesenchymal stem cells (BMSCs) on the scaffolds indicated that the fabricated hybrid nanofiber scaffold supported BMSCs adhesion and proliferation.

机译：为了制造用于骨组织工程的纳米纤维支架，采用了静电纺丝技术。该技术产生支持细胞粘附，迁移和增殖的纳米纤维支架。在这里，我们从聚己内酯，明胶和聚苯胺/石墨烯纳米粒子开发了一种新型的导电支架。在这项研究中，共电纺丝被用来制造复合电纺支架。研究了聚苯胺/石墨烯（PAG）纳米颗粒对该混合支架的机械性能和电导率的影响。结果表明，PAG纳米颗粒同时增强了支架的机械性能和导电性。通过在支架上培养大鼠骨髓来源的间充质干细胞（BMSC）评估支架的生物相容性，表明所制备的杂合纳米纤维支架支持BMSC的粘附和增殖。

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《2017 24th National and 2nd International Iranian Conference on Biomedical Engineering》|2017年|1-5|共5页
会议地点 Tehran(IR)
作者
Fatemeh RastiBoroojeni; Shohreh Mashayekhan; Hojjat-Allah Abbaszadeh; Mohamadhasan Ansarizadeh;
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作者单位

Sharif University of Technology, Department of Chemical and Petroleum Engineering, Tehran, Iran;

Sharif University of Technology, Department of Chemical and Petroleum Engineering, Tehran, Iran;

Shahid Beheshti University of Medical Sciences, Hearing Disorders Research Center and Department of Biology and Anatomical Sciences, Tehran, Iran;

Sharif University of Technology, Department of Chemical and Petroleum Engineering, Tehran, Iran;

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原文格式 PDF
正文语种 eng
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Conferences; Biomedical engineering;

机译：会议;生物医学工程;;
入库时间 2022-08-26 14:11:05

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1. 3D Scaffold Designing based on Conductive/Degradable Tetrapolymeric Nanofibers of PHEMA-co-PNIPAAm-co-PCL/PANI for Bone Tissue Engineering [J] . Raana Sarvari, Samira Agbolaghi, Younes Beygi-Khosrowshahi, Journal of Ultrafine Grained and Nanostructured Materials . 2018,第2期

机译：基于PHEMA-co-PNIPAAm-co-PCL / PANI的导电/可降解四聚物纳米纤维的3D支架设计，用于骨组织工程。
2. RGD functionalized poly(epsilon-caprolactone)/poly(m-anthranilic acid) electrospun nanofibers as high-performing scaffolds for bone tissue engineering RGD functionalized PCL/P3ANA nanofibers [J] . Guler Zeliha, Silva J. Carvalho, Sarac A. Sezai International Journal of Polymeric Materials . 2017,第1a5期

机译：RGD官能化聚（ε-己内酮）/聚（M-炭酸）电纺纳米纤维作为骨组织工程的高性能支架RGD官能化PCL / P3ANA纳米纤维
3. Printable alginate/gelatin hydrogel reinforced with carbon nanofibers as electrically conductive scaffolds for tissue engineering [J] . Serafin Aleksandra, Murphy Caoimhe, Rubio Mario Culebras, Materials science & engineering . 2021,第Mara期

机译：可印刷的藻酸盐/明胶水凝胶加强碳纳米纤维，作为组织工程的导电支架
4. Conductive Nanofiber Scaffold for Bone Tissue Engineering [C] . Fatemeh RastiBoroojeni, Shohreh Mashayekhan, Hojjat-Allah Abbaszadeh, National Conference on Biomedical Engineering . 2017

机译：骨组织工程的导电纳米纤维支架
5. Biomimetic Nanofiber Scaffold Design for Tendon-to-Bone Interface Tissue Engineering. [D] . Moffat, Kristen L. 2010

机译：肌腱到骨界面组织工程的仿生纳米纤维支架设计。
6. 3D conductive nanocomposite scaffold for bone tissue engineering [O] . Aref Shahini, Mostafa Yazdimamaghani, Kenneth J Walker, 2014

机译：用于骨组织工程的3D导电纳米复合材料支架
7. Simple and robust fabrication and characterization of conductive carbonized nanofibers loaded with gold nanoparticles for bone tissue engineering applications [O] . Houra Nekounam, Zahra Allahyari, Shayan Gholizadeh, 2020

机译：具有用于骨组织工程应用的金纳米粒子的导电碳化纳米纤维的简单且鲁棒的制造和表征

Conductive Nanofiber Scaffold for Bone Tissue Engineering

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