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Evaluation of peripheral nerve regeneration through biomaterial conduits via micro‐CT imaging
Author(s) -
Pixley Sarah K.,
Hopkins Tracy M.,
Little Kevin J.,
Hom David B.
Publication year - 2016
Publication title -
laryngoscope investigative otolaryngology
Language(s) - English
Resource type - Journals
ISSN - 2378-8038
DOI - 10.1002/lio2.41
Subject(s) - regeneration (biology) , electrical conduit , sciatic nerve , nerve guidance conduit , medicine , silicone , biomedical engineering , anatomy , materials science , biology , mechanical engineering , composite material , engineering , microbiology and biotechnology
Objective Hollow nerve conduits made of natural or synthetic biomaterials are used clinically to aid regeneration of peripheral nerves damaged by trauma or disease. To support healing, conduit lumen patency must be maintained until recovery occurs. New methods to study conduit structural integrity would provide an important means to optimize conduits in preclinical studies. We explored a novel combined technique to examine structural integrity of two types of nerve conduits after in vivo healing. Study Design Micro‐CT imaging with iodine contrast was combined with histological analysis to examine two different nerve conduits after in vivo nerve reconstruction in rats. Materials and Methods Sciatic nerve gaps in adult Lewis rats were reconstructed with poly(caprolactone) (PCL, 1.6 cm gap, 14‐week survival) or silicone (1 cm gap, 6‐week survival) conduits (N = 12 total). Conduits with regenerating tissues were imaged by micro‐CT with iodine contrast and compared to the histology (hematoxylin and eosin, immunostaining for axons) of regenerated tissues after iodine removal. Results PCL nerve conduits showed extensive breakage throughout their length, but all showed successful nerve growth through the conduits. The silicone conduits remained intact, although significant constriction was uniquely detected by micro‐CT, with 1 of 6 animals showing incomplete tissue regeneration. Conclusions Micro‐CT with iodine contrast offers a unique and valuable means to determine 3D structural integrity of nerve conduits and nerve healing following reconstruction. Furthermore, this paper shows that even if conduit compression and degradation occur, nerve regeneration can still take place.

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