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A composite poly-hydroxybutyrate-glial growth factor conduit for long nerve gap repairs

Mohanna P. N, Young R. C, Wiberg M, Terenghi G

J Anat. 2003;203, 6:553-65.

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Abstract

There is considerable evidence that peripheral nerves have the potential to regenerate in an appropriate microenvironment. We have developed a novel artificial nerve guide composed of poly 3-hydroxybutyrate (PHB) filled with glial growth factor (GGF) suspended in alginate hydrogel. Gaps of 2-4 cm in rabbit common peroneal nerve were bridged using a PHB conduit containing either GGF in alginate hydrogel (GGF) or alginate alone (Alginate), or with an empty PHB conduit (Empty). Tissues were harvested 21, 42 and 63 days post-operatively. Schwann cell and axonal regeneration were assessed using quantitative immunohistochemistry. At 21 days, addition of GGF increased significantly the distance of axonal and Schwann cells regeneration in comparison with that observed in Alginate and Empty conduits for both gap lengths. The axons bridged the 2-cm GGF conduits gap by 63 days, with a comparable rate of regeneration seen in 4-cm conduits. Schwann cells and axonal regeneration quantity was similar for both gap lengths in each group. However, at all time points the quantity of axonal and Schwann cells regeneration in GGF grafts was significantly greater than in both Alginate and Empty conduits, the latter showing better regeneration than Alginate conduits. The results indicate an inhibitory effect of alginate on regeneration, which is partially reversed by the addition of GGF to the conduits. In conclusion, GGF stimulates a progressive and sustainable regeneration increase in long nerve gap conduits.

Keyword(s)

*Hydroxybutyrates; *Polyesters; Alginates/pharmacology; Animals; Axons/physiology; Biocompatible Materials/pharmacology; Female; Glucuronic Acid/pharmacology; Hexuronic Acids/pharmacology; Hydrogel; Immunohistochemistry/methods; Implants, Experimental; Nerve Regeneration/drug effects/*physiology; Neuregulin-1/administration & dosage/*physiology; Peroneal Nerve/anatomy & histology/drug effects/*physiology; Rabbits; Schwann Cells/cytology/physiology; Support, Non-U.S. Gov't; Tissue Culture/methods; Wound Healing/physiology

Bibliographic metadata

Type of resource:

text

Content type:

Journal article

Publication type:

Original work

Publication form:

Academic journal article

Author list:

Mohanna P. N, Young R. C, Wiberg M, Terenghi G.

Published date:

2003

Article title:

A composite poly-hydroxybutyrate-glial growth factor conduit for long nerve gap repairs

Journal title:

J Anat

Volume:

203, 6

Start page:

553

End page:

Pagination:

553-65

ISI Accession Number:

14686691

General notes:

0021-8782Journal Article

Access state:

Active

Institutional metadata

University researcher(s):

Terenghi, Giorgio

Academic department(s):

Record metadata

Manchester eScholar ID:

uk-ac-man-scw:1d7805

Created:

29th August, 2009, 14:16:59

Last modified:

7th November, 2013, 19:34:56