Nerve Repair: Toward a Sutureless Approach

Overview

Journal Neurosurg Rev

Specialty Neurosurgery

Date 2014 Jul 13

PMID 25015388

Citations 17

Authors

Matthew J Barton

John W Morley

Marcus A Stoodley

Antonio Lauto

David A Mahns

Affiliations

Soon will be listed here.

Abstract

Peripheral nerve repair for complete section injuries employ reconstructive techniques that invariably require sutures in their application. Sutures are unable to seal the nerve, thus incapable of preventing leakage of important intraneural fluids from the regenerating nerve. Furthermore, sutures are technically demanding to apply for direct repairs and often induce detrimental scarring that impedes healing and functional recovery. To overcome these limitations, biocompatible and biodegradable glues have been used to seal and repair peripheral nerves. Although creating a sufficient seal, they can lack flexibility and present infection risks or cytotoxicity. Other adhesive biomaterials have recently emerged into practice that are usually based on proteins such as albumin and collagen or polysaccharides like chitosan. These adhesives form their union to nerve tissue by either photothermal (tissue welding) or photochemical (tissue bonding) activation with laser light. These biomaterial adhesives offer significant advantages over sutures, such as their capacity to unite and seal the epineurium, ease of application, reduced invasiveness and add the potential for drug delivery in situ to facilitate regeneration. This paper reviews a number of different peripheral nerve repair (or reconstructive) techniques currently used clinically and in experimental procedures for nerve injuries with or without tissue deficit.

Citing Articles

Biomechanical Evaluation of an Atraumatic Polymer-assisted Peripheral Nerve Repair System Compared with Conventional Neurorrhaphy Techniques.

Wlodarczyk A, Collin E, Pereira M, Bindra R, Power D Plast Reconstr Surg Glob Open. 2024; 12(9):e6151.

PMID: 39267729 PMC: 11392492. DOI: 10.1097/GOX.0000000000006151.

Nerve Regeneration after a Nerve Graft in a Rat Model: The Effectiveness of Fibrin Glue.

Zabbia G, Toia F, Coppola F, Cassata G, Cicero L, Giglia G J Pers Med. 2024; 14(5).

PMID: 38793027 PMC: 11121836. DOI: 10.3390/jpm14050445.

Targeted muscle reinnervation in upper extremity amputations.

Le E, Iorio M, Greyson M Eur J Orthop Surg Traumatol. 2023; 34(7):3717-3725.

PMID: 37814069 PMC: 11490433. DOI: 10.1007/s00590-023-03736-2.

Progress of tissue adhesives based on proteins and synthetic polymers.

Han G, Hwang S, Cho K, Kim H, Cho C Biomater Res. 2023; 27(1):57.

PMID: 37287042 PMC: 10249221. DOI: 10.1186/s40824-023-00397-4.

Advances of Direct Peripheral Nerve Repair Techniques: Do We Already Have Enough Scientific Evidence?.

Braga Silva J, Becker A, Leiria Mereje Leal B, Vellinho Busnello C Indian J Orthop. 2023; 57(2):189-202.

PMID: 36777121 PMC: 9880092. DOI: 10.1007/s43465-022-00791-5.

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