Literature DB >> 19668200

Chondroitinase ABC treatment opens a window of opportunity for task-specific rehabilitation.

Guillermo García-Alías1, Stanley Barkhuysen, Miranda Buckle, James W Fawcett.   

Abstract

Chondroitinase ABC treatment promotes spinal cord plasticity. We investigated whether chondroitinase-induced plasticity combined with physical rehabilitation promotes recovery of manual dexterity in rats with cervical spinal cord injuries. Rats received a C4 dorsal funiculus cut followed by chondroitinase ABC or penicillinase as a control. They were assigned to two alternative rehabilitation procedures, the first reinforcing skilled reaching and the second reinforcing general locomotion. Chondroitinase treatment enhanced sprouting of corticospinal axons independently of the rehabilitation regime. Only the rats receiving the combination of chondroitinase and specific rehabilitation showed improved manual dexterity. Rats that received general locomotor rehabilitation were better at ladder walking, but had worse skilled-reaching abilities than rats that received no treatment. Our results indicate that chondroitinase treatment opens a window during which rehabilitation can promote recovery. However, only the trained skills are improved and other functions may be negatively affected.

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Year:  2009        PMID: 19668200     DOI: 10.1038/nn.2377

Source DB:  PubMed          Journal:  Nat Neurosci        ISSN: 1097-6256            Impact factor:   24.884


  48 in total

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2.  Promoting plasticity in the spinal cord with chondroitinase improves functional recovery after peripheral nerve repair.

Authors:  Clare M Galtrey; Richard A Asher; Fatiha Nothias; James W Fawcett
Journal:  Brain       Date:  2007-01-25       Impact factor: 13.501

3.  Anti-Nogo-A antibody treatment enhances sprouting of corticospinal axons rostral to a unilateral cervical spinal cord lesion in adult macaque monkey.

Authors:  Patrick Freund; Thierry Wannier; Eric Schmidlin; Jocelyne Bloch; Anis Mir; Martin E Schwab; Eric M Rouiller
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4.  Recovery of supraspinal control of stepping via indirect propriospinal relay connections after spinal cord injury.

Authors:  Gregoire Courtine; Bingbing Song; Roland R Roy; Hui Zhong; Julia E Herrmann; Yan Ao; Jingwei Qi; V Reggie Edgerton; Michael V Sofroniew
Journal:  Nat Med       Date:  2008-01-06       Impact factor: 53.440

5.  Amphetamine with experience promotes recovery of locomotor function after unilateral frontal cortex injury in the cat.

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Journal:  Brain Res       Date:  1984-04-30       Impact factor: 3.252

6.  Distribution and synthesis of extracellular matrix proteoglycans, hyaluronan, link proteins and tenascin-R in the rat spinal cord.

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Journal:  Eur J Neurosci       Date:  2008-03       Impact factor: 3.386

Review 7.  Activity-dependent plasticity: implications for recovery after spinal cord injury.

Authors:  Sarah A Dunlop
Journal:  Trends Neurosci       Date:  2008-07-02       Impact factor: 13.837

8.  Paw and limb use in skilled and spontaneous reaching after pyramidal tract, red nucleus and combined lesions in the rat: behavioral and anatomical dissociations.

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Journal:  Behav Brain Res       Date:  1998-06       Impact factor: 3.332

9.  Spinal pathways involved in the control of forelimb motor function in rats.

Authors:  Kim D Anderson; Ardi Gunawan; Oswald Steward
Journal:  Exp Neurol       Date:  2007-06-06       Impact factor: 5.330

Review 10.  The role of chondroitin sulfate proteoglycans in regeneration and plasticity in the central nervous system.

Authors:  Clare M Galtrey; James W Fawcett
Journal:  Brain Res Rev       Date:  2007-01-11
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  179 in total

1.  Role of chondroitin sulfate proteoglycans in axonal conduction in Mammalian spinal cord.

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Review 3.  Reactive astrogliosis after spinal cord injury-beneficial and detrimental effects.

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Review 4.  Neural regeneration: lessons from regenerating and non-regenerating systems.

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Journal:  Mol Neurobiol       Date:  2012-06-21       Impact factor: 5.590

5.  Alterations in chondroitin sulfate proteoglycan expression occur both at and far from the site of spinal contusion injury.

Authors:  Ellen M Andrews; Rebekah J Richards; Feng Q Yin; Mariano S Viapiano; Lyn B Jakeman
Journal:  Exp Neurol       Date:  2011-09-17       Impact factor: 5.330

6.  Axonal regeneration induced by blockade of glial inhibitors coupled with activation of intrinsic neuronal growth pathways.

Authors:  Xingxing Wang; Omar Hasan; Alexander Arzeno; Larry I Benowitz; William B J Cafferty; Stephen M Strittmatter
Journal:  Exp Neurol       Date:  2012-06-21       Impact factor: 5.330

7.  Impact of treatment duration and lesion size on effectiveness of chondroitinase treatment post-SCI.

Authors:  S E Mondello; S C Jefferson; N J Tester; D R Howland
Journal:  Exp Neurol       Date:  2015-02-26       Impact factor: 5.330

8.  Sugar-dependent modulation of neuronal development, regeneration, and plasticity by chondroitin sulfate proteoglycans.

Authors:  Gregory M Miller; Linda C Hsieh-Wilson
Journal:  Exp Neurol       Date:  2015-08-24       Impact factor: 5.330

Review 9.  Translational spinal cord injury research: preclinical guidelines and challenges.

Authors:  Paul J Reier; Michael A Lane; Edward D Hall; Y D Teng; Dena R Howland
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Review 10.  Exercise and Peripheral Nerve Grafts as a Strategy To Promote Regeneration after Acute or Chronic Spinal Cord Injury.

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Journal:  J Neurotrauma       Date:  2017-04-26       Impact factor: 5.269
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