通过二次谐波产生检测大鼠正中神经体内拉伸损伤后的结构和炎症反应。

Detecting structural and inflammatory response after in vivo stretch injury in the rat median nerve via second harmonic generation.

机构信息

Leni & Peter W. May Department of Orthopaedic Surgery, Icahn School of Medicine at Mount Sinai, United States.

出版信息

J Neurosci Methods. 2018 Jun 1;303:68-80. doi: 10.1016/j.jneumeth.2018.02.006. Epub 2018 Feb 14.

DOI:10.1016/j.jneumeth.2018.02.006

PMID:29454014

Abstract

BACKGROUND

Second Harmonic Generation (SHG) microscopy is a promising method for visualizing the collagenous structure of peripheral nerves. Assessing collagen continuity and damage after a stretch injury provides inferential insight into the level of axonal damage present.

NEW METHODS

This study utilizes SHG microscopy after a calibrated in vivo stretch injury of rat median nerves to evaluate collagen continuity at several time points throughout the recovery process. Endoneurial collagen was qualitatively assessed in nerves that were subjected to low strain (LS) and high strain (HS) injuries using SHG microscopy, conventional histology, and immunohistochemistry.

RESULTS

Following an in vivo stretch injury, both LS and HS damaged nerves exhibit signs of structural collagen damage in comparison with sham control nerves (SC). Furthermore, LS nerves exhibit signs of full regeneration while HS nerves exhibited signs of only partial regeneration with lasting damage and intra-neural scar formation.

COMPARISON WITH EXISTING METHODS

SHG observations of structural changes and inflammatory response due to stretch injury were validated upon comparison with conventional histological methods CONCLUSIONS: We propose that SHG microscopy can be utilized to visualize significant structural artifacts in sectioned median nerves following in vivo stretch injury. Based on the findings in this study, we believe that the in vivo application of SHG microscopy should be further investigated as a means for real-time, intra-operative, quantitative assessment of nerve damage.

摘要

背景

二次谐波产生（SHG）显微镜是一种很有前途的方法，可用于可视化周围神经的胶原结构。评估伸展损伤后胶原的连续性和损伤程度，可以推断出轴突损伤的程度。

新方法

本研究在大鼠正中神经体内校准拉伸损伤后，利用 SHG 显微镜评估整个恢复过程中的几个时间点的胶原连续性。使用 SHG 显微镜、常规组织学和免疫组织化学，对接受低应变（LS）和高应变（HS）损伤的神经进行终神经内胶原的定性评估。

结果

与假手术对照神经（SC）相比，体内拉伸损伤后，LS 和 HS 损伤的神经均显示出结构胶原损伤的迹象。此外，LS 神经表现出完全再生的迹象，而 HS 神经仅表现出部分再生的迹象，伴有持续的损伤和神经内瘢痕形成。

与现有方法的比较

SHG 观察到的结构变化和拉伸损伤引起的炎症反应与常规组织学方法进行比较后得到验证。

结论

我们提出，SHG 显微镜可用于可视化体内拉伸损伤后节段性正中神经的显著结构伪影。基于本研究的结果，我们认为应进一步研究 SHG 显微镜的体内应用，作为神经损伤实时、术中、定量评估的一种手段。

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通过二次谐波产生检测大鼠正中神经体内拉伸损伤后的结构和炎症反应。

Detecting structural and inflammatory response after in vivo stretch injury in the rat median nerve via second harmonic generation.

机构信息

出版信息

BACKGROUND

NEW METHODS

RESULTS

COMPARISON WITH EXISTING METHODS

背景

新方法

结果

与现有方法的比较

结论

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