Search

Search Results

1. Spinal Cord Injury and Assays for Regeneration

   Due to their renowned regenerative capacity, adult zebrafish are a premier vertebrate model to interrogate mechanisms of innate spinal cord...

   Brooke Burris, Mayssa H. Mokalled in Zebrafish

   Protocol 2024
   

2. Deubiquitinase UCHL1 promotes angiogenesis and blood–spinal cord barrier function recovery after spinal cord injury by stabilizing Sox17

   Improving the function of the blood–spinal cord barrier (BSCB) benefits the functional recovery of mice following spinal cord injury (SCI). The death...

   Jiaxing Wang, Chengyue Ji, ... Weihua Cai in Cellular and Molecular Life Sciences

   Article Open access 13 March 2024
   

3. FUNDC1-induced mitophagy protects spinal cord neurons against ischemic injury

   Local ischemia and hypoxia are the most important pathological processes in the early phase of secondary spinal cord injury (SCI), in which...

   Dehui Chen, Linquan Zhou, ... Wenge Liu in Cell Death Discovery

   Article Open access 05 January 2024
   

4. Effect of Spinal Cord Injury on P2 Signaling in the Cholinergic Synapse

   Abstract

   Thoracic spinal cord injuries are well known to entail the degradation of spinal motoneurons, accompanied by axonal degeneration. In the...

   A. E. Khairullin, D. V. Efimova, ... A. U. Ziganshin in Journal of Evolutionary Biochemistry and Physiology

   Article 01 May 2023
   

5. The activation of dormant ependymal cells following spinal cord injury

   Ependymal cells, a dormant population of ciliated progenitors found within the central canal of the spinal cord, undergo significant alterations...

   Francisco Javier Rodriguez-Jimenez, Pavla Jendelova, Slaven Erceg in Stem Cell Research & Therapy

   Article Open access 05 July 2023
   

6. Role of peripheral immune cells in spinal cord injury

   Secondary spinal cord injury is caused by an inflammatory response cascade, and the process is irreversible. The immune system, as a mediator of...

   Cong Li, Wu **ong, ... ** Fan in Cellular and Molecular Life Sciences

   Article Open access 07 December 2022
   

7. Nicotinamide Riboside Promotes the Proliferation of Endogenous Neural Stem Cells to Repair Spinal Cord Injury

   Abstract

   Activation of endogenous neural stem cells (NSC) is one of the most potential measures for neural repair after spinal cord injury. However,...

   Jian** Zhang, Jun Shang, ... Ning Ran in Stem Cell Reviews and Reports

   Article 28 June 2024
   

8. Regulation of axonal regeneration after mammalian spinal cord injury

   One hundred years ago, Ramón y Cajal, considered by many as the founder of modern neuroscience, stated that neurons of the adult central nervous...

   Binhai Zheng, Mark H. Tuszynski in Nature Reviews Molecular Cell Biology

   Article 05 January 2023
   

9. Conditioned medium-enriched umbilical cord mesenchymal stem cells: a potential therapeutic strategy for spinal cord injury, unveiling transcriptomic and secretomic insights

   Introduction

   Spinal cord injury (SCI) leads to significant destruction of nerve tissue, causing the degeneration of axons and the formation of cystic...

   Rajasekaran Subbarayan, Dinesh Murugan Girija, ... Suresh Ranga Rao in Molecular Biology Reports

   Article 24 April 2024
   

10. Combined transplantation of hiPSC-NSC and hMSC ameliorated neuroinflammation and promoted neuroregeneration in acute spinal cord injury

    Background

    Spinal cord injury (SCI) is a serious clinical condition that has pathological changes such as increased neuroinflammation and nerve tissue...

    **aofeng Du, Desheng Kong, ... Jun Ma in Stem Cell Research & Therapy

    Article Open access 05 March 2024
    

11. Electrical stimulation affects the differentiation of transplanted regionally specific human spinal neural progenitor cells (sNPCs) after chronic spinal cord injury

    Background

    There are currently no effective clinical therapies to ameliorate the loss of function that occurs after spinal cord injury. Electrical...

    Nandadevi Patil, Olivia Korenfeld, ... Ann M. Parr in Stem Cell Research & Therapy

    Article Open access 20 December 2023
    

12. UCHL1 facilitates protein aggregates clearance to enhance neural stem cell activation in spinal cord injury

    Activation of endogenous neural stem cells (NSCs) is greatly significant for the adult neurogenesis; however, it is extremely limited in the spinal...

    Lu Ding, Weiwei Chu, ... David Y. B. Deng in Cell Death & Disease

    Article Open access 28 July 2023
    

13. Exosome-mediated repair of spinal cord injury: a promising therapeutic strategy

    Spinal cord injury (SCI) is a catastrophic injury to the central nervous system (CNS) that can lead to sensory and motor dysfunction, which seriously...

    Tong Yu, Li-Li Yang, ... Jian-Hang Jiao in Stem Cell Research & Therapy

    Article Open access 02 January 2024
    

14. Spinal cord injury dysregulates fibro-adipogenic progenitors miRNAs signaling to promote neurogenic heterotopic ossifications

    Neurogenic heterotopic ossifications are intramuscular bone formations develo** following central nervous system injury. The pathophysiology is...

    Jules Gueguen, Dorothée Girard, ... Sébastien Banzet in Communications Biology

    Article Open access 12 September 2023
    

15. Research progress and prospects of benefit-risk assessment methods for umbilical cord mesenchymal stem cell transplantation in the clinical treatment of spinal cord injury

    Over the past decade, we have witnessed the development of cell transplantation as a new strategy for repairing spinal cord injury (SCI). However,...

    Ruoqi Shen, Yubao Lu, ... Yang Yang in Stem Cell Research & Therapy

    Article Open access 02 July 2024
    

16. Modulation of Inflammatory Responses to Enhance Nerve Recovery after Spinal Cord Injury

    Inflammation can occur at the wound site, and immune cells are necessary to trigger wound healing and tissue regeneration after injury. It is partly...

    Young-Kwon Seo in Tissue Engineering and Regenerative Medicine

    Article 26 March 2024

17. The roles of neural stem cells in myelin regeneration and repair therapy after spinal cord injury

    Spinal cord injury (SCI) is a complex tissue injury that results in a wide range of physical deficits, including permanent or progressive...

    Chun Li, Yu** Luo, Siguang Li in Stem Cell Research & Therapy

    Article Open access 08 July 2024
    

18. Controlling the Immune Response to Zebrafish Spinal Cord Injury via Extracellular Vesicles Secreted by Activated Monocyte-like Cells

    Abstract

    The immune response to spinal cord injury (SCI) is implemented via local and systemic inflammation, followed by repair and...

    D. B. Sambur, O. V. Kalinina, ... A. S. Golovkin in Journal of Evolutionary Biochemistry and Physiology

    Article 01 January 2024
    

19. Developmental stage of transplanted neural progenitor cells influences anatomical and functional outcomes after spinal cord injury in mice

    Neural progenitor cell (NPC) transplantation is a promising therapeutic strategy for replacing lost neurons following spinal cord injury (SCI)....

    Miriam Aceves, Ashley Tucker, ... Jennifer N. Dulin in Communications Biology

    Article Open access 19 May 2023
    

20. Protocol paper: kainic acid excitotoxicity-induced spinal cord injury paraplegia in Sprague–Dawley rats

    Background

    Excitotoxicity-induced in vivo injury models are vital to reflect the pathophysiological features of acute spinal cord injury (SCI) in...

    Anam Anjum, Yt Jun Cheah, ... Yogeswaran Lokanathan in Biological Research

    Article Open access 09 December 2022