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Literature DB >> 23804083

Nerve regeneration restores supraspinal control of bladder function after complete spinal cord injury.

Yu-Shang Lee¹, Ching-Yi Lin, Hai-Hong Jiang, Marc Depaul, Vernon W Lin, Jerry Silver.

Abstract

A life-threatening disability after complete spinal cord injury is urinary dysfunction, which is attributable to lack of regeneration of supraspinal pathways that control the bladder. Although numerous strategies have been proposed that can promote the regrowth of severed axons in the adult CNS, at present, the approaches by which this can be accomplished after complete cord transection are quite limited. In the present study, we modified a classic peripheral nerve grafting technique with the use of chondroitinase to facilitate the regeneration of axons across and beyond an extensive thoracic spinal cord transection lesion in adult rats. The novel combination treatment allows for remarkably lengthy regeneration of certain subtypes of brainstem and propriospinal axons across the injury site and is followed by markedly improved urinary function. Our studies provide evidence that an enhanced nerve grafting strategy represents a potential regenerative treatment after severe spinal cord injury.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2013 PMID： 23804083 PMCID： PMC3693049 DOI： 10.1523/JNEUROSCI.1116-12.2013

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

69 in total

1. Comparison of the effects of complete and incomplete spinal cord injury on lower urinary tract function as evaluated in unanesthetized rats.

Authors: Philberta Y Leung; Christopher S Johnson; Jean R Wrathall
Journal: Exp Neurol Date: 2007-08-01 Impact factor: 5.330

Review 2. PTEN/mTOR and axon regeneration.

Authors: Kevin K Park; Kai Liu; Yang Hu; Jennifer L Kanter; Zhigang He
Journal: Exp Neurol Date: 2010-01-14 Impact factor: 5.330

Review 3. Growth factors and combinatorial therapies for CNS regeneration.

Authors: Paul Lu; Mark H Tuszynski
Journal: Exp Neurol Date: 2007-08-22 Impact factor: 5.330

4. Synergistic effects of transplanted adult neural stem/progenitor cells, chondroitinase, and growth factors promote functional repair and plasticity of the chronically injured spinal cord.

Authors: Soheila Karimi-Abdolrezaee; Eftekhar Eftekharpour; Jian Wang; Desiree Schut; Michael G Fehlings
Journal: J Neurosci Date: 2010-02-03 Impact factor: 6.167

5. PTPsigma is a receptor for chondroitin sulfate proteoglycan, an inhibitor of neural regeneration.

Authors: Yingjie Shen; Alan P Tenney; Sarah A Busch; Kevin P Horn; Fernando X Cuascut; Kai Liu; Zhigang He; Jerry Silver; John G Flanagan
Journal: Science Date: 2009-10-15 Impact factor: 47.728

6. Electrophysiological function during voiding after simulated childbirth injuries.

Authors: Hai-Hong Jiang; A Marcus Gustilo-Ashby; Levilester B Salcedo; Hui Q Pan; David F Sypert; Robert S Butler; Margot S Damaser
Journal: Exp Neurol Date: 2008-11-13 Impact factor: 5.330

7. Macrophages promote axon regeneration with concurrent neurotoxicity.

Authors: John C Gensel; Satoshi Nakamura; Zhen Guan; Nico van Rooijen; Daniel P Ankeny; Phillip G Popovich
Journal: J Neurosci Date: 2009-03-25 Impact factor: 6.167

Review 8. The neural control of micturition.

Authors: Clare J Fowler; Derek Griffiths; William C de Groat
Journal: Nat Rev Neurosci Date: 2008-06 Impact factor: 34.870

9. Targeting axon growth from neuronal transplants along preformed guidance pathways in the adult CNS.

Authors: Kristine S Ziemba; Nagarathnamma Chaudhry; Alexander G Rabchevsky; Ying Jin; George M Smith
Journal: J Neurosci Date: 2008-01-09 Impact factor: 6.167

10. Axon growth across a lesion site along a preformed guidance pathway in the brain.

Authors: Ying Jin; Kristine S Ziemba; George M Smith
Journal: Exp Neurol Date: 2007-12-23 Impact factor: 5.330

48 in total

1. Plasticity of subcortical pathways promote recovery of skilled hand function in rats after corticospinal and rubrospinal tract injuries.

Authors: Guillermo García-Alías; Kevin Truong; Prithvi K Shah; Roland R Roy; V Reggie Edgerton
Journal: Exp Neurol Date: 2015-02-07 Impact factor: 5.330

2. Evaluating accessibility of intravenously administered nanoparticles at the lesion site in rat and pig contusion models of spinal cord injury.

Authors: Yue Gao; Sivakumar Vijayaraghavalu; Melinda Stees; Brian K Kwon; Vinod Labhasetwar
Journal: J Control Release Date: 2019-03-28 Impact factor: 9.776

3. Incontinence: novel grafting technique restores bladder function after spinal cord transection.

Authors: Melanie Clyne
Journal: Nat Rev Urol Date: 2013-07-16 Impact factor: 14.432

Review 4. Recommendations for evaluation of bladder and bowel function in pre-clinical spinal cord injury research.

Authors: Gregory M Holmes; Charles H Hubscher; Andrei Krassioukov; Lyn B Jakeman; Naomi Kleitman
Journal: J Spinal Cord Med Date: 2019-09-26 Impact factor: 1.985

5. Expression of suppressor of cytokine signaling-3 (SOCS3) and its role in neuronal death after complete spinal cord injury.

Authors: Keun Woo Park; Ching-Yi Lin; Yu-Shang Lee
Journal: Exp Neurol Date: 2014-06-21 Impact factor: 5.330