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Items: 1 to 20 of 99

1.

Zebrafish is a central model to dissect the peripheral neuropathy.

Won SY, Choi BO, Chung KW, Lee JE.

Genes Genomics. 2019 Jun 10. doi: 10.1007/s13258-019-00838-2. [Epub ahead of print] Review.

PMID:
31183681
2.

Axonopathy in peripheral neuropathies: Mechanisms and therapeutic approaches for regeneration.

Landowski LM, Dyck PJ, Engelstad J, Taylor BV.

J Chem Neuroanat. 2016 Oct;76(Pt A):19-27. doi: 10.1016/j.jchemneu.2016.04.006. Epub 2016 May 2. Review.

PMID:
27151423
3.

Axonal regeneration in zebrafish spinal cord.

Ghosh S, Hui SP.

Regeneration (Oxf). 2018 Apr 22;5(1):43-60. doi: 10.1002/reg2.99. eCollection 2018 Mar. Review.

4.

Motor nerve transection and time-lapse imaging of glial cell behaviors in live zebrafish.

Lewis GM, Kucenas S.

J Vis Exp. 2013 Jun 20;(76). doi: 10.3791/50621.

5.

Genome wide expression profiling during spinal cord regeneration identifies comprehensive cellular responses in zebrafish.

Hui SP, Sengupta D, Lee SG, Sen T, Kundu S, Mathavan S, Ghosh S.

PLoS One. 2014 Jan 20;9(1):e84212. doi: 10.1371/journal.pone.0084212. eCollection 2014.

6.

New insights into signaling during myelination in zebrafish.

Raphael AR, Talbot WS.

Curr Top Dev Biol. 2011;97:1-19. doi: 10.1016/B978-0-12-385975-4.00007-3. Review.

7.

Applications of Proteomics to Nerve Regeneration Research.

Massing MW, Robinson GA, Marx CE, Alzate O, Madison RD.

In: Alzate O, editor. Neuroproteomics. Boca Raton (FL): CRC Press/Taylor & Francis; 2010. Chapter 15.

8.

Molecular Probes for PNS Neurotoxicity, Degeneration, and Regeneration.

Toews AD.

Methods Mol Med. 1999;22:67-87. doi: 10.1385/0-89603-612-X:67.

PMID:
21380824
9.

Non-canonical functions of the peripheral nerve.

Kaucká M, Adameyko I.

Exp Cell Res. 2014 Feb 1;321(1):17-24. doi: 10.1016/j.yexcr.2013.10.004. Epub 2013 Oct 15. Review.

PMID:
24140263
10.

Knockdown of Lingo1b protein promotes myelination and oligodendrocyte differentiation in zebrafish.

Yin W, Hu B.

Exp Neurol. 2014 Jan;251:72-83. doi: 10.1016/j.expneurol.2013.11.012. Epub 2013 Nov 18. Erratum in: Exp Neurol. 2014 Mar;253:111-2.

PMID:
24262204
12.

Role of macrophages in Wallerian degeneration and axonal regeneration after peripheral nerve injury.

Chen P, Piao X, Bonaldo P.

Acta Neuropathol. 2015 Nov;130(5):605-18. doi: 10.1007/s00401-015-1482-4. Epub 2015 Sep 29. Review.

PMID:
26419777
13.

Dynamics of degeneration and regeneration in developing zebrafish peripheral axons reveals a requirement for extrinsic cell types.

Villegas R, Martin SM, O'Donnell KC, Carrillo SA, Sagasti A, Allende ML.

Neural Dev. 2012 Jun 8;7:19. doi: 10.1186/1749-8104-7-19.

15.

Implications of Schwann Cells Biomechanics and Mechanosensitivity for Peripheral Nervous System Physiology and Pathophysiology.

Rosso G, Young P, Shahin V.

Front Mol Neurosci. 2017 Oct 25;10:345. doi: 10.3389/fnmol.2017.00345. eCollection 2017. Review.

16.

Human autoimmune neuropathies.

Ho TW, McKhann GM, Griffin JW.

Annu Rev Neurosci. 1998;21:187-226. Review.

PMID:
9530496
17.
18.

The transitional zone and CNS regeneration.

Fraher JP.

J Anat. 1999 Feb;194(Pt 2):161-82. Review. Corrected and republished in: J Anat. 2000 Jan;196 ( Pt 1):137-58.

19.

Neurotrauma and inflammation: CNS and PNS responses.

Mietto BS, Mostacada K, Martinez AM.

Mediators Inflamm. 2015;2015:251204. doi: 10.1155/2015/251204. Epub 2015 Mar 31. Review.

20.

Experience with examination of the spinal cord and peripheral nervous system (PNS) in mice: A brief overview.

Krinke GJ, Herrmann A, Körner A, Landes C, Sauner F.

Exp Toxicol Pathol. 2014 Sep;66(7):277-80. doi: 10.1016/j.etp.2014.04.005. Epub 2014 May 24. Review.

PMID:
24867273

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