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Artificial Cells, Blood Substitutes, and Biotechnology Volume 40, 2012 - Issue 1-2
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Research Article

Preparation of Electrospun PLGA-silk Fibroin Nanofibers-based Nerve Conduits and Evaluation In Vivo

Sen LiDepartment of Orthopedic Surgery, West China Hospital, Sichuan University, Chengdu, China
,
Hui WuDepartment of Orthopedic Surgery, West China Hospital, Sichuan University, Chengdu, China
,
Xu-Dong HuDepartment of Orthopedic Surgery, West China Hospital, Sichuan University, Chengdu, China
,
Chong-Qi TuDepartment of Orthopedic Surgery, West China Hospital, Sichuan University, Chengdu, China
,
Fu-Xing PeiDepartment of Orthopedic Surgery, West China Hospital, Sichuan University, Chengdu, China
,
Guang-Lin WangDepartment of Orthopedic Surgery, West China Hospital, Sichuan University, Chengdu, ChinaCorrespondence[email protected]
,
Wei LinDepartment of Gynecology and Obstetrics, West China Second Hospital, Sichuan University, Chengdu, China
&
Hong-Song FanEngineering Research Center of Biomaterials, Sichuan University, Chengdu, China
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Pages 171-178 | Published online: 22 Dec 2011

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Mehdi Farokhi, Fatemeh Mottaghitalab, Mohammad Ali Shokrgozar, David L. Kaplan, Hae-Won Kim & Subhas C. Kundu. (2017) Prospects of peripheral nerve tissue engineering using nerve guide conduits based on silk fibroin protein and other biopolymers. International Materials Reviews 62:7, pages 367-391.
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Guicai Li, Yan Kong, Yinxin Zhao, Yahong Zhao, Luzhong Zhang & Yumin Yang. (2015) Fabrication and characterization of polyacrylamide/silk fibroin hydrogels for peripheral nerve regeneration. Journal of Biomaterials Science, Polymer Edition 26:14, pages 899-916.
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Articles from other publishers (26)

Francisco Vieira dos Santos, Renato Luiz Siqueira, Lucas de Morais Ramos, Sérgio Akinobu Yoshioka, Márcia Cristina Branciforti & Daniel Souza Correa. (2024) Silk fibroin-derived electrospun materials for biomedical applications: A review. International Journal of Biological Macromolecules 254, pages 127641.
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Cristina Chircov, Daniela-Alina Ioniță, Andra-Maria Sîrmon, Ionela Andreea Neacșu & Anton Ficai. 2023. Biomaterials for Neural Tissue Engineering. Biomaterials for Neural Tissue Engineering 21 58 .
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Konstantina Chachlioutaki, Christina Karavasili, Elisavet Adamoudi, Nikolaos Bouropoulos, Dimitrios Tzetzis, Athina Bakopoulou & Dimitrios G. Fatouros. (2022) Silk sericin/PLGA electrospun scaffolds with anti-inflammatory drug-eluting properties for periodontal tissue engineering. Biomaterials Advances 133, pages 112723.
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Caroline S. Taylor & John W. Haycock. 2022. Peripheral Nerve Tissue Engineering and Regeneration. Peripheral Nerve Tissue Engineering and Regeneration 245 279 .
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Caroline S. Taylor & John W. Haycock. 2020. Peripheral Nerve Tissue Engineering and Regeneration. Peripheral Nerve Tissue Engineering and Regeneration 1 35 .
Franciele Pereira dos Santos, Thais Peruch, Sonia Jabbar Vittorassi Katami, Ana Paula Rodrigues Martini, Thayane Antoniolli Crestani, Kerlin Quintiliano, Natasha Maurmann, Eduardo Farias Sanches, Carlos Alexandre Netto, Patricia Pranke & Aline de Souza Pagnussat. (2019) Poly (lactide-co-glycolide) (PLGA) Scaffold Induces Short-term Nerve Regeneration and Functional Recovery Following Sciatic Nerve Transection in Rats. Neuroscience 396, pages 94-107.
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Adrián Magaz, Alessandro Faroni, Julie E. Gough, Adam J. Reid, Xu Li & Jonny J. Blaker. (2018) Bioactive Silk‐Based Nerve Guidance Conduits for Augmenting Peripheral Nerve Repair. Advanced Healthcare Materials 7:23, pages 1800308.
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Hamed Souriyan-Reyhani pour, Ramin Khajavi, Mohammad Esmaeil Yazdanshenas, Payam Zahedi & Mohammad Mirjalili. (2018) Cellulose acetate/poly(vinyl alcohol) hybrid fibrous mat containing tetracycline hydrochloride and phenytoin sodium: Morphology, drug release, antibacterial, and cell culture studies. Journal of Bioactive and Compatible Polymers 33:6, pages 597-611.
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Mina Rajabi, Masoumeh Firouzi, Zahra Hassannejad, Ismaeil Haririan & Payam Zahedi. (2018) Fabrication and characterization of electrospun laminin-functionalized silk fibroin/poly(ethylene oxide) nanofibrous scaffolds for peripheral nerve regeneration. Journal of Biomedical Materials Research Part B: Applied Biomaterials 106:4, pages 1595-1604.
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Valentina Cirillo, Jared Bushman, Vincenzo Guarino, Joachim Kohn & Luigi Ambrosio. 2018. Electrofluidodynamic Technologies (EFDTs) for Biomaterials and Medical Devices. Electrofluidodynamic Technologies (EFDTs) for Biomaterials and Medical Devices 329 349 .
You Yang, Xiaolu Liu, Dan Wei, Meiling Zhong, Jing Sun, Likun Guo, Hongsong Fan & Xingdong Zhang. (2017) Automated fabrication of hydrogel microfibers with tunable diameters for controlled cell alignment. Biofabrication 9:4, pages 045009.
Crossref
George Dan Mogoşanu, Alexandru Mihai Grumezescu, Laurenţiu Mogoantă, Ludovic Everard Bejenaru & Cornelia Bejenaru. 2016. Nanobiomaterials in Soft Tissue Engineering. Nanobiomaterials in Soft Tissue Engineering 83 109 .
Gamze Doğan, Güldemet Başal, Oğuz Bayraktar, FİGEN Özyildiz, Ataç Uzel & İpek Erdoğan. (2016) Bioactive Sheath/Core nanofibers containing olive leaf extract. Microscopy Research and Technique 79:1, pages 38-49.
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Jian-Hui Guo, Yang Liu, Zheng-Jun Lv, Wen-Juan Wei, Xin Guan, Qing-Lin Guan, Zhi-Qian Leng, Jing-Yuan Zhao, Hui Miao & Jing Liu. (2015) Potential Neurogenesis of Human Adipose-Derived Stem Cells on Electrospun Catalpol-Loaded Composite Nanofibrous Scaffolds. Annals of Biomedical Engineering 43:10, pages 2597-2608.
Crossref
Niladri nath Panda, Amit Biswas, Krishna Pramanik & Sriramakamal Jonnalagadda. (2015) Enhanced osteogenic potential of human mesenchymal stem cells on electrospun nanofibrous scaffolds prepared from eri-tasar silk fibroin. Journal of Biomedical Materials Research Part B: Applied Biomaterials 103:5, pages 971-982.
Crossref
L. Tian, M. P. Prabhakaran & S. Ramakrishna. (2015) Strategies for regeneration of components of nervous system: scaffolds, cells and biomolecules. Regenerative Biomaterials 2:1, pages 31-45.
Crossref
N. Panda, A. Bissoyi, K. Pramanik & A. Biswas. (2015) Development of novel electrospun nanofibrous scaffold from P. ricini and A. mylitta silk fibroin blend with improved surface and biological properties. Materials Science and Engineering: C 48, pages 521-532.
Crossref
Wei Zhou, Yakai Feng, Jing Yang, Jiaxu Fan, Juan Lv, Li Zhang, Jintang Guo, Xiangkui Ren & Wencheng Zhang. (2015) Electrospun scaffolds of silk fibroin and poly(lactide-co-glycolide) for endothelial cell growth. Journal of Materials Science: Materials in Medicine 26:1.
Crossref
Mohammad-Hossein Beigi, Laleh Ghasemi-Mobarakeh, Molamma P. Prabhakaran, Khadijeh Karbalaie, Hamid Azadeh, Seeram Ramakrishna, Hossein Baharvand & Mohammad-Hossein Nasr-Esfahani. (2014) In vivo integration of poly(ε-caprolactone)/gelatin nanofibrous nerve guide seeded with teeth derived stem cells for peripheral nerve regeneration . Journal of Biomedical Materials Research Part A, pages n/a-n/a.
Crossref
S. Das, U. Bora & B.B. Borthakur. 2014. Silk Biomaterials for Tissue Engineering and Regenerative Medicine. Silk Biomaterials for Tissue Engineering and Regenerative Medicine 41 77 .
M.E. Marti, A.D. Sharma, D.S. Sakaguchi & S.K. Mallapragada. 2013. Nanomaterials in Tissue Engineering. Nanomaterials in Tissue Engineering 275 301 .
Hongkui Wang, Qing Zhao, Weijia Zhao, Qiong Liu, Xiaosong Gu & Yumin Yang. (2012) Repairing rat sciatic nerve injury by a nerve‐growth‐factor‐loaded, chitosan‐based nerve conduit. Biotechnology and Applied Biochemistry 59:5, pages 388-394.
Crossref

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