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Literature DB >> 28766845

Neural stem cell therapy aiming at better functional recovery after spinal cord injury.

Yicheng Zhu¹, Naohiro Uezono¹, Tetsuro Yasui¹, Kinichi Nakashima¹.

Abstract

Injury to the spinal cord causes transection of axon fibers and neural cell death, resulting in disruption of the neural network and severe functional loss. Reconstruction of the damaged neural circuits was once considered to be hopeless as the adult mammalian central nervous system has very poor ability to regenerate. For this reason, there is currently no effective therapeutic treatment for spinal cord injury (SCI). However, with recent developments in stem cell research and cell culture technology, regenerative therapy using neural stem cell (NSC) transplantation has rapidly been developed, and this therapeutic strategy makes it possible to rebuild the destroyed neural circuits. In this review, we discuss the recent breakthroughs in NSC transplantation therapy for SCI. Developmental Dynamics 247:75-84, 2018.

Entities: Disease Species

Keywords: neural stem cell; neuronal relay; spinal cord injury; transplantation

Mesh：

Year: 2017 PMID： 28766845 DOI： 10.1002/dvdy.24558

Source DB: PubMed Journal: Dev Dyn ISSN： 1058-8388 Impact factor: 3.780

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Cited

22 in total

1. Neural stem cell delivery via porous collagen scaffolds promotes neuronal differentiation and locomotion recovery in spinal cord injury.

Authors: Alexandra Kourgiantaki; Dimitrios S Tzeranis; Kanelina Karali; Konstantina Georgelou; Efstathia Bampoula; Sotirios Psilodimitrakopoulos; Ioannis V Yannas; Emmanuel Stratakis; Kyriaki Sidiropoulou; Ioannis Charalampopoulos; Achille Gravanis
Journal: NPJ Regen Med Date: 2020-06-15

Review 2. Stem Cell Therapies for Restorative Treatments of Central Nervous System Ischemia-Reperfusion Injury.

Authors: Ge Li; Ping Zhu; Qi-Song Su; Dong-Lin Zhuang; Moussa Ide Nasser; Xiyalatu Sai; Gang Deng
Journal: Cell Mol Neurobiol Date: 2022-02-07 Impact factor: 5.046

Review 3. Engineering Tissues of the Central Nervous System: Interfacing Conductive Biomaterials with Neural Stem/Progenitor Cells.

Authors: Rebecca D Bierman-Duquette; Gevick Safarians; Joyce Huang; Bushra Rajput; Jessica Y Chen; Ze Zhong Wang; Stephanie K Seidlits
Journal: Adv Healthc Mater Date: 2021-12-16 Impact factor: 9.933

Review 4. Enhancing Stem Cell-Based Therapeutic Potential by Combining Various Bioengineering Technologies.

Authors: In-Sun Hong
Journal: Front Cell Dev Biol Date: 2022-07-05

5. Heat-Shock Proteins Can Potentiate the Therapeutic Ability of Cryopreserved Mesenchymal Stem Cells for the Treatment of Acute Spinal Cord Injury in Dogs.

Authors: Woo Keyoung Kim; Wan Hee Kim; Oh-Kyeong Kweon; Byung-Jae Kang
Journal: Stem Cell Rev Rep Date: 2022-01-10 Impact factor: 6.692

6. The Rotary Cell Culture System increases NTRK3 expression and promotes neuronal differentiation and migratory ability of neural stem cells cultured on collagen sponge.

Authors: Yi Cui; Yanyun Yin; Yunlong Zou; Yannan Zhao; Jin Han; Bai Xu; Bing Chen; Zhifeng Xiao; Hongwei Song; Ya Shi; Weiwei Xue; Xu Ma; Jianwu Dai
Journal: Stem Cell Res Ther Date: 2021-05-21 Impact factor: 6.832

Review 7. 3D Bioprinting of Neural Tissues.

Authors: Melissa Cadena; Liqun Ning; Alexia King; Boeun Hwang; Linqi Jin; Vahid Serpooshan; Steven A Sloan
Journal: Adv Healthc Mater Date: 2020-11-16 Impact factor: 11.092

8. Reduction of Inflammation and Enhancement of Motility after Pancreatic Islet Derived Stem Cell Transplantation Following Spinal Cord Injury.

Authors: Erdal Karaoz; Filiz Tepekoy; Irem Yilmaz; Cansu Subasi; Serdar Kabatas
Journal: J Korean Neurosurg Soc Date: 2019-02-27

9. Neural stem cell-derived small extracellular vesicles attenuate apoptosis and neuroinflammation after traumatic spinal cord injury by activating autophagy.

Authors: Yuluo Rong; Wei Liu; Jiaxing Wang; Jin Fan; Yongjun Luo; Linwei Li; Fanqi Kong; Jian Chen; Pengyu Tang; Weihua Cai
Journal: Cell Death Dis Date: 2019-04-18 Impact factor: 8.469

10. Neural stem cell small extracellular vesicle-based delivery of 14-3-3t reduces apoptosis and neuroinflammation following traumatic spinal cord injury by enhancing autophagy by targeting Beclin-1.

Authors: Yuluo Rong; Wei Liu; Chengtang Lv; Jiaxing Wang; Yongjun Luo; Dongdong Jiang; Linwei Li; Zheng Zhou; Wei Zhou; Qingqing Li; Guoyong Yin; Lipeng Yu; Jin Fan; Weihua Cai
Journal: Aging (Albany NY) Date: 2019-09-28 Impact factor: 5.682