BRIEF COMMUNICATIONS

A Novel DNA Enzyme Reduces Glycosaminoglycan Chains in the Glial Scar and Allows Microtransplanted Dorsal Root Ganglia Axons to Regenerate beyond Lesions in the Spinal Cord

Barbara Grimpe and Jerry Silver
Journal of Neuroscience 11 February 2004, 24 (6) 1393-1397; https://doi.org/10.1523/JNEUROSCI.4986-03.2004

Article Information

DOI 
https://doi.org/10.1523/JNEUROSCI.4986-03.2004
PubMed 
14960611
Published By 
Society for Neuroscience
History 
  • Received November 6, 2003
  • Revision received December 15, 2003
  • Accepted December 17, 2003
  • First published February 11, 2004.
  • Version of record published February 11, 2004.
Copyright & Usage 
Copyright © 2004 Society for Neuroscience 0270-6474/04/241393-05.00/0

Author Information

  1. Barbara Grimpe and
  2. Jerry Silver
  1. Case Western Reserve University, School of Medicine, Department of Neurosciences, Cleveland, Ohio 44106
View Full Text

Author contributions

Disclosures

    • Received November 6, 2003.
    • Revision received December 15, 2003.
    • Accepted December 17, 2003.

  • This work was supported by National Institute of Neurological Disorders and Stroke Grant NS 25713, The Christopher Reeve Paralysis Foundation, The Daniel Heumann Fund, and the Brumagin Memorial Fund. We thank Albert Ries for his outstanding help in protein chemistry and photographic quantification. We also thank Prof. Paul Jones (Department of Epidemiology and Biostatistics, Case Western Reserve University) for his help in the statistical evaluation procedures.

  • Correspondence should be addressed to Barbara Grimpe, Case Western Reserve University, School of Medicine, Department of Neurosciences, 10900 Euclid Avenue, Cleveland, OH 44106. E-mail: bxg15{at}po.cwru.edu.

  • Copyright © 2004 Society for Neuroscience 0270-6474/04/241393-05$15.00/0

Online Impact

 

Article usage

Article usage: January 2018 to July 2025

AbstractFullPdf
Jan 201892110
Feb 201810116
Mar 20186115
Apr 201882035
May 20188184
Jun 20180111
Jul 20182163
Aug 20183359
Sep 20181222
Oct 20182264
Nov 201843610
Dec 2018385
Total 20185623594
Jan 20191185
Feb 20194223
Mar 20190109
Apr 2019884
May 201942114
Jun 20193128
Jul 201911914
Aug 201935910
Oct 20195883
Nov 201972019
Dec 2019189
Total 20193728598
Jan 2020392
Feb 2020657
Mar 2020273
May 202041512
Jun 20204610
Jul 2020494
Aug 2020097
Sep 20202163
Oct 20202396
Nov 202051516
Dec 20207139
Total 20203914379
Jan 202102310
Feb 202181915
Mar 202161913
Apr 20216246
May 20215175
Jun 20215218
Jul 202111316
Aug 202172014
Sep 202111613
Oct 202151628
Nov 20215926
Dec 202141915
Total 202153216169
Jan 20222114
Feb 20224139
Mar 202242337
Apr 202262625
May 202251822
Jun 202252210
Jul 20223153
Aug 20223117
Sep 202211312
Oct 2022595
Nov 2022031
Dec 20221187
Total 202239182142
Jan 20234376
Feb 20235126
Mar 2023123213
Apr 20231225
May 202321610
Jun 202332211
Jul 202302112
Aug 2023296
Sep 20234127
Oct 20233254
Nov 20233169
Dec 202323311
Total 202341257100
Jan 202444611
Feb 20242385
Mar 20240195
Apr 20245836
May 202411225
Jun 20244296
Jul 202443611
Aug 202411237
Sep 20243188
Oct 20245169
Nov 202412208
Dec 202423411
Total 20245348492
Jan 20252249
Feb 2025210311
Mar 20252559
Apr 20252356
May 20254377
Jun 202562310
Jul 2025060
Total 20251828352
Total3362085826
Back to top

In this issue

Email
Print
View Full Page PDF
Citation Tools
Respond to this article
A Novel DNA Enzyme Reduces Glycosaminoglycan Chains in the Glial Scar and Allows Microtransplanted Dorsal Root Ganglia Axons to Regenerate beyond Lesions in the Spinal Cord
Barbara Grimpe, Jerry Silver
Journal of Neuroscience 11 February 2004, 24 (6) 1393-1397; DOI: 10.1523/JNEUROSCI.4986-03.2004
Twitter logo Facebook logo Mendeley logo

Jump to section

Responses to this article

Respond to this article

Jump to comment:

No eLetters have been published for this article.