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Beyond the limiting gap length: peripheral nerve regeneration through implantable nerve guidance conduits

Eugenio Redolfi Riva, Melis Özkan, Estefanía Contreras, Sujeet Pawar, Ciro Zinno, Enrique Escarda‐Castro, Jaehyeon Kim, Paul Wieringa, Francesco Stellacci, Silvestro Micera, Xavier Navarro

2024Biomaterials Science34 citationsDOIOpen Access PDF

Abstract

Peripheral nerve damage results in the loss of sensorimotor and autonomic functions, which is a significant burden to patients. Furthermore, nerve injuries greater than the limiting gap length require surgical repair. Although autografts are the preferred clinical choice, their usage is impeded by their limited availability, dimensional mismatch, and the sacrifice of another functional donor nerve. Accordingly, nerve guidance conduits, which are tubular scaffolds engineered to provide a biomimetic environment for nerve regeneration, have emerged as alternatives to autografts. Consequently, a few nerve guidance conduits have received clinical approval for the repair of short-mid nerve gaps but failed to regenerate limiting gap damage, which represents the bottleneck of this technology. Thus, it is still necessary to optimize the morphology and constituent materials of conduits. This review summarizes the recent advances in nerve conduit technology. Several manufacturing techniques and conduit designs are discussed, with emphasis on the structural improvement of simple hollow tubes, additive manufacturing techniques, and decellularized grafts. The main objective of this review is to provide a critical overview of nerve guidance conduit technology to support regeneration in long nerve defects, promote future developments, and speed up its clinical translation as a reliable alternative to autografts.

Topics & Concepts

LimitingPeripheral nerveRegeneration (biology)Electrical conduitNerve guidance conduitNeuroscienceAnatomyChemistryComputer scienceMedicineBiologyCell biologyEngineeringTelecommunicationsMechanical engineeringNerve injury and regenerationNeuroscience and Neural Engineering3D Printing in Biomedical Research
Beyond the limiting gap length: peripheral nerve regeneration through implantable nerve guidance conduits | Litcius