Use of In Vivo Single-fiber Recording and Intact Dorsal Root Ganglion with Attached Sciatic Nerve to Examine the Mechanism of Conduction Failure

Honghui Mao; Xiuchao Wang; Wen Chen; FengYu Liu; You Wan; Sanjue Hu; Junling Xing

doi:10.3791/59234

インビボシングルファイバー記録と無傷の後部根神経を用いて伝導障害のメカニズムを調べる

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Neuroscience

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JoVE Journal Neuroscience

Use of In Vivo Single-fiber Recording and Intact Dorsal Root Ganglion with Attached Sciatic Nerve to Examine the Mechanism of Conduction Failure

インビボシングルファイバー記録と無傷の後部根神経を用いて伝導障害のメカニズムを調べる

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09:34 min

August 27, 2019

DOI: 10.3791/59234-v

Honghui Mao*^1,2, Xiuchao Wang*^1,3, Wen Chen⁴, FengYu Liu⁵, You Wan⁵, Sanjue Hu¹, Junling Xing^1,6

¹Department of Neurobiology, School of Basic Medicine,Fourth Military Medical University, ²Department of Toxicology, School of Public Health,ShanXi Medical University, ³Department of Psychology,Fourth Military Medical University, ⁴Department of Neurobiology, School of Basic Medical Sciences, Advanced Innovation Center for Human Brain Protection,Capital Medical University, ⁵Neuroscience Research Institute, Key Lab for Neuroscience, Ministry of Education/National Health Commission,Peking University, ⁶Department of Radiation Biology, Faculty of Preventive Medicine,Fourth Military Medical University

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Overview

This study investigates single-fiber recording as an electrophysiological technique applicable to both central and peripheral nervous systems. It includes the preparation of intact dorsal root ganglia (DRG) with the attached sciatic nerve and examines mechanisms of conduction failure, enhancing the understanding of pain pathways in the peripheral nervous system.

Key Study Components

Area of Science

Neuroscience
Electrophysiology
Peripheral Nervous System

Background

Single-fiber recording effectively captures nerve fiber activities.
This technique is essential in understanding pain signaling from peripheral receptors.
The study involves preparing and recording from dorsal root ganglia and sciatic nerve preparations.
Understanding conduction failure mechanisms is critical for pain research.

Purpose of Study

Examine the conduction failure mechanisms in primary afferent nerve fibers.
Enhance the understanding of peripheral nervous system's role in pain transmission.
Establish a detailed methodology for single-fiber recording and analysis.

Methods Used

The primary method used is single-fiber recording from dorsal root ganglia and the sciatic nerve of anesthetized rats.
The biological model involves rat Dorsal Root Ganglia with attached sciatic nerve.
Important steps include surgical isolation of the sciatic nerve and DRG preparation, as well as detailed electrode setup for recording.
Data acquisition involves using specific software to analyze action potentials and conduction failure.
The methodology includes rigorous surgical and electrophysiological procedures to ensure accurate recordings.

Main Results

The study outlines significant findings regarding the behavior of c fibers in response to stimuli.
Conduction failure is quantitatively measured by analyzing the ratio of failures to stimulus pulses.
Important parameters such as fiber responsiveness and signal amplitudes were characterized during the recording.
Key insights were gained about the physiological state of the fibers, including aspects of excitability and responsiveness to natural stimuli.

Conclusions

This study demonstrates the utility of single-fiber recording in elucidating mechanisms of pain signaling.
The findings have important implications for understanding neuronal mechanisms related to pain and conduction failure.
The methodology provided can be beneficial for further studies in peripheral nerve physiology and pain mechanisms.

Frequently Asked Questions

What is the advantage of single-fiber recording?

Single-fiber recording allows for precise measurement of individual nerve fiber activities, providing insight into the nuances of pain signaling and fiber responsiveness.

How is the biological model implemented in this study?

The biological model involves surgically isolating the sciatic nerve and DRG from anesthetized rats to investigate conduction and pain mechanisms through electrophysiological recordings.

What types of data are obtained from single-fiber recordings?

Data include action potential waveforms, conduction failure rates, and fiber responsiveness to mechanical and thermal stimuli, crucial for understanding pain mechanisms.

How can this method be applied in other studies?

This electrophysiological technique can be adapted for various studies concerning nerve injuries, regeneration, and the pathology of pain in other models.

What are the limitations of this approach?

Limitations may include the requirement for precise surgical techniques and the challenges in isolating specific fiber types, which can introduce variability in measurements.

シングルファイバー記録は、中枢および末梢神経系に適用可能な効果的な電気生理学的手法である。付着した坐骨神経を持つ無傷のDRGの調製と共に、伝導障害のメカニズムが調べられる。両方のプロトコルは、末梢神経系と痛みとの関係の理解を向上させます.

単繊維記録は、神経線維の活動を記録する上で重要な役割を果たしています。特に、受容的なフィールドから後根神経節のニューロンに末梢感覚を伝達する活動。ファイバー記録の波動では、自然刺激に対する応答を記録する能力を持つ持続時間の長さを提供し、そして後に細胞間環境の妨害であった。

単一の繊維記録では、状況のために中性子自動良い必要があります。セラピストは、坐骨神経が統合された統合されたDRGテストの準備のための要件を呼び出します。デモの状況の結果は、良好な、物理的なデカール段階で神経のほぼすべての詳細を示しています。

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