弥合差距：工程化猪源膀胱基质导管作为周围神经再生的新型支架

Bridging the Gap: Engineered Porcine-derived Urinary Bladder Matrix Conduits as a Novel Scaffold for Peripheral Nerve Regeneration.

作者信息

Nguyen Lyly, Afshari Ashkan, Kelm Nathaniel D, Pollins Alonda C, Shack R Bruce, Does Mark D, Thayer Wesley P

机构信息

From the Departments of *Plastic Surgery, and †Biomedical Engineering, and ‡Institute of Imaging Science, Vanderbilt University Medical Center, Nashville, TN; §Department of Surgery, Morristown Medical Center, Morristown, NJ; ∥Department of Surgery, University of South Carolina, Columbia, SC.

出版信息

Ann Plast Surg. 2017 Jun;78(6S Suppl 5):S328-S334. doi: 10.1097/SAP.0000000000001042.

DOI:10.1097/SAP.0000000000001042

PMID:28328634

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5946697/

Abstract

PURPOSE

This study aims to compare engineered nerve conduits constructed from porcine-derived urinary bladder matrix (UBM) with the criterion-standard nerve autografts, for segmental loss peripheral nerve repairs.

METHODS

Forty-eight Sprague-Dawley rats were divided into 2 groups. All underwent a 10-mm sciatic nerve gap injury. This was repaired using either (1) reverse autograft-the 10-mm cut segment was oriented 180 degrees and used to coapt the proximal and distal stumps or (2) UBM conduit-the 10-mm nerve gap was bridged with UBM conduit. Behavior assessments such as sciatic function index and foot fault asymmetry scores were performed weekly. At 3- or 6-week time endpoints, the repaired nerves and bilateral gastrocnemius/soleus muscles were harvested from each animal. Nerves were evaluated using immunohistochemistry for motor and sensory axon staining and with diffusion tensor imaging. The net wet muscle weights were calculated to assess the degree of muscle atrophy.

RESULTS

The UBM group demonstrated significantly improved foot fault asymmetry scores at 2 and 4 weeks, whereas there was no difference in sciatic function index. The net muscle weights were similar between both groups. Motor axon counts proximal/inside/distal to the conduit/graft were similar between UBM conduits and reverse autografts, whereas sensory axon counts within and distal to the conduit were significantly higher than those of the autograft at 6 weeks. Sensory axonal regeneration seemed to be adherent to the inner surface of the UBM conduit, whereas it had a scattered appearance in autografts. Diffusion tensor imaging parameters between groups were similar.

CONCLUSIONS

Urinary bladder matrix conduits prove to be at least similar to nerve autografts for the repair of peripheral nerve injuries with a short gap. The matrix perhaps serves as a scaffold to augment sensory nerve growth.

CLINICAL RELEVANCE

In a clinical setting, UBM may eliminate the donor site morbidity and increased operative time associated with nerve autografting.

摘要

目的

本研究旨在比较由猪源膀胱基质（UBM）构建的工程化神经导管与标准对照神经自体移植，用于修复周围神经节段性缺损。

方法

将48只Sprague-Dawley大鼠分为2组。所有大鼠均造成10毫米坐骨神经间隙损伤。分别采用以下方法进行修复：（1）反向自体移植——将10毫米切断段旋转180度，用于连接近端和远端残端；（2）UBM导管——用UBM导管桥接10毫米神经间隙。每周进行坐骨神经功能指数和足趾错误不对称评分等行为评估。在3周或6周的时间节点，从每只动物身上采集修复后的神经和双侧腓肠肌/比目鱼肌。通过免疫组织化学对神经进行运动和感觉轴突染色评估，并采用扩散张量成像。计算肌肉净湿重以评估肌肉萎缩程度。

结果

UBM组在第2周和第4周时足趾错误不对称评分显著改善，而坐骨神经功能指数无差异。两组的肌肉净重相似。UBM导管和反向自体移植在导管/移植体近端/内部/远端的运动轴突计数相似，而在6周时，导管内部和远端的感觉轴突计数显著高于自体移植。感觉轴突再生似乎附着在UBM导管内表面，而在自体移植中则呈分散状。两组之间的扩散张量成像参数相似。