Enhancing peripheral nerve regeneration through NaOH‐based decellularization of human nerve tissue
Subin Kim, Seong Hyuk Park, Jiyeon Mun, Soon Won Jung, Won Jai Lee, Dong Won Lee, Kee‐Won Lee

TL;DR
A new NaOH-based method for preparing nerve allografts shows promise for peripheral nerve regeneration, with results comparable to autografts.
Contribution
A novel NaOH-based decellularization technique is introduced that preserves ECM structure and reduces toxicity for nerve allografts.
Findings
NaOH-based decellularization effectively removes inflammatory materials while preserving ECM components and structures.
In vitro studies show low cytotoxicity and elevated cell viability with NaOH-treated nerves.
In vivo rabbit models show functional recovery comparable to autografts using NaOH-decellularized nerves.
Abstract
Peripheral nerves are vulnerable to trauma, pressure, and surgical injuries, complicating the regeneration process. While the autograft remains the gold standard for recovery, limitations such as tissue availability and donor site morbidities have led to the exploration of the allografts. However, conventional detergent‐based decellularization methods in preparing allografts often cause residual toxicity and damage to the extracellular matrix (ECM). To address such challenges, we propose a sodium hydroxide (NaOH)‐based decellularization technique that minimizes harmful residues. Our findings demonstrate that this method effectively removes inflammatory materials while preserving the ECM components and structures, and significantly reduces lipid and detergent residues. In vitro studies confirmed that the human nerves processed with the NaOH‐based decellularization technique show low…
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Taxonomy
TopicsTissue Engineering and Regenerative Medicine · Electrospun Nanofibers in Biomedical Applications · Bone Tissue Engineering Materials
