Computed Tomography Neurography for Visualization of the In Vivo Nervous System: A Proof of Concept.

IF 1.8 Q2 ORTHOPEDICS

HAND Pub Date : 2024-09-01 Epub Date: 2023-04-19 DOI:10.1177/15589447231164735

James E McCarthy, Natalie J Serkova

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引用次数: 0

Abstract

Background: The human peripheral nervous system embodies anatomical, physiologic, and diagnostic perplexities that remain unexplained. Yet in the course of human history, there are no mechanisms, such as computed tomography (CT) or radiography, by which to image the peripheral nervous system in vivo using a contrast agent that is identified by ionizing radiation, which would aid in surgical navigation, diagnostic radiology, and basic science thereof.

Methods: A novel class of contrast was created by linking iodine to lidocaine. The radiodensity of 0.5% experimental contrast molecule was compared with a control of 1% lidocaine by placing 1.5-mL aliquots of each liquid into centrifuge tubes and performing micro-computed tomography (micro-CT) synchronously under identical settings. Physiologic binding to the sciatic nerve was evaluated by injecting 10 mg of the experimental contrast and 10 mg of the control into the contralateral sciatic nerve, and documenting loss of hindlimb function and recovery. In vivo visualization of the sciatic nerve was evaluated by injecting 10 mg of experimental contrast or control into either sciatic nerve and imaging the hindlimbs under identical conditions using micro-CT.

Results: The mean Hounsfield unit of the contrast was 56.09 compared with -0.48 for control (116-fold increase, P = .0001). Hindlimb paresis revealed similar degree of paresis, baseline recovery, and time to recovery. In vivo enhancement between the contralateral sciatic nerves was similar.

Conclusion: Iodinated lidocaine offers a viable mechanism for in vivo peripheral nerve imaging using CT; however, it requires modification to improve in vivo radiodensity.

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用于活体神经系统可视化的计算机断层扫描神经成像技术：概念验证。

背景：人类的周围神经系统在解剖学、生理学和诊断学方面都存在着至今仍无法解释的难题。然而，在人类历史上，还没有一种机制，如计算机断层扫描（CT）或放射摄影，可以利用电离辐射识别的造影剂对周围神经系统进行活体成像，这将有助于手术导航、放射诊断及其基础科学：方法：通过将碘与利多卡因连接，制造出一种新型造影剂。方法：通过将碘与利多卡因连接，制造出一类新型对比剂。将每种液体 1.5 毫升的等分量放入离心管中，在相同设置下同步进行微型计算机断层扫描（micro-CT），比较 0.5%实验对比剂分子与 1%利多卡因对照组的辐射强度。通过向对侧坐骨神经注射 10 毫克实验用对比剂和 10 毫克对照组对比剂，评估坐骨神经的生理性结合，并记录后肢功能的丧失和恢复情况。通过向任一坐骨神经注射 10 毫克实验用对比剂或对照组对比剂，并在相同条件下使用微型计算机断层扫描对后肢成像，对坐骨神经的体内可视化进行评估：对比剂的平均 Hounsfield 单位为 56.09，而对照组为 -0.48（增加 116 倍，P = .0001）。后肢瘫痪显示出相似的瘫痪程度、基线恢复和恢复时间。对侧坐骨神经的体内增强效果相似：碘化利多卡因为使用 CT 进行体内周围神经成像提供了一种可行的机制；但是，需要对其进行改进，以提高体内放射密度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

HAND Medicine-Surgery

CiteScore

3.30

自引率

0.00%

发文量

209

期刊介绍： HAND is the official journal of the American Association for Hand Surgery and is a peer-reviewed journal featuring articles written by clinicians worldwide presenting current research and clinical work in the field of hand surgery. It features articles related to all aspects of hand and upper extremity surgery and the post operative care and rehabilitation of the hand.