Efficacy of Fu's Subcutaneous Needling on Sciatic Nerve Pain: Behavioral and Electrophysiological Changes in a Chronic Constriction Injury Rat Model

Po-En Chiu; Zhonghua Fu; De-Wei Lai; Li-Wei Chou

doi:10.3791/65406

좌골 신경통에 대한 Fu의 피하 침의 효능: 만성 수축 손상 쥐 모델의 행동 및 전기 생리학적 변화

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Efficacy of Fu’s Subcutaneous Needling on Sciatic Nerve Pain: Behavioral and Electrophysiological Changes in a Chronic Constriction Injury Rat Model

좌골 신경통에 대한 Fu의 피하 침의 효능: 만성 수축 손상 쥐 모델의 행동 및 전기 생리학적 변화

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08:20 min

June 30, 2023

DOI: 10.3791/65406-v

Po-En Chiu*^1,2, Zhonghua Fu*^3,4, De-Wei Lai^5,6, Li-Wei Chou^7,8,9

¹Department of Chinese Medicine,Chang Bing Show Chwan Memorial Hospital, ²Graduate Institute of Integrated Medicine, College of Chinese Medicine,China Medical University, ³Institute of Fu's Subcutaneous Needling,Beijing University of Chinese Medicine, ⁴Clinical Medical College of Acupuncture & Moxibustion and Rehabilitation,Guangzhou University of Chinese Medicine, ⁵Experimental Animal Center, Department of Molecular Biology and Cell Research,Chang Bing Show Chwan Memorial Hospital, ⁶Department of Pharmacy and Master Program,Tajen University, ⁷Department of Physical Medicine and Rehabilitation,China Medical University Hospital, ⁸Department of Physical Therapy and Graduate Institute of Rehabilitation Science,China Medical University, ⁹Department of Physical Medicine and Rehabilitation, Asia University Hospital,Asia University

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Overview

This research investigates the analgesic effect of Fu's subcutaneous needle therapy and low-frequency electrotherapy in a chronic constriction injury model to induce sciatic nerve pain in rats. The study aims to explore non-pharmacological treatment options for neuropathic pain.

Key Study Components

Area of Science

Neuroscience
Pain Management
Therapeutic Interventions

Background

Chronic constriction injury is a model for studying neuropathic pain.
Fu's subcutaneous needling therapy is being evaluated as a treatment option.
Current challenges include minimizing discomfort during procedures.
Behavioral and electrophysiological assessments are crucial for evaluating pain responses.

Purpose of Study

To demonstrate the therapeutic effect of Fu's needle therapy on neuropathic pain.
To establish a reliable chronic constriction injury model in rats.
To bridge basic research and clinical applications for improved patient outcomes.

Methods Used

Fu's subcutaneous needling therapy applied to rats.
Low-frequency electrotherapy as a comparative treatment.
Behavioral assessments to evaluate pain responses.
Electrophysiological testing to measure therapeutic effects.

Main Results

Demonstrated therapeutic effects of Fu's therapy on neuropathic pain.
Established a protocol for evaluating treatment efficacy.
Highlighted the importance of behavioral and electrophysiological assessments.
Provided insights for future research directions in nerve compression-related diseases.

Conclusions

Fu's subcutaneous needling therapy shows promise as a non-pharmacological treatment for neuropathic pain.
The study contributes to understanding disease mechanisms for effective treatments.
Future research will incorporate immunohistochemistry to validate findings.

Frequently Asked Questions

What is Fu's subcutaneous needling therapy?

Fu's subcutaneous needling therapy is a non-pharmacological treatment aimed at alleviating pain through targeted needling techniques.

How does chronic constriction injury relate to neuropathic pain?

Chronic constriction injury is a widely used model to study neuropathic pain mechanisms and potential treatments in research settings.

What are the main challenges in this study?

Challenges include minimizing discomfort during needling procedures and accurately assessing pain responses in animal models.

What methods were used to assess the effectiveness of the treatments?

The study employed behavioral assessments and electrophysiological testing to evaluate the therapeutic effects of the treatments.

What are the implications of this research?

This research may lead to improved non-pharmacological treatment options for neuropathic pain, enhancing patient outcomes.

쥐의 좌골 신경통을 유도하기 위해 만성 수축 손상 모델에서 Fu의 피하 침을 사용하기 위한 프로토콜을 제시합니다.

1 이 연구는만성 수축 손상 및 신경병증성 통증이 있는 쥐4를 대상으로 Fu의 피하 침 요법3과 저주파 전기 요법의 진통 효과2를 조사합니다. 5 신경병증성 통증에 대한 비약물적 치료 옵션6을 탐색하고7 효과적인 중재로서 FSN 요법8의 잠재력을 조사한다. 9 현재 실험적 과제는 다음과 같습니다.10 적절한 바늘 기술 개발 11 쥐의 불편함을 줄이기 위해 12 Fu의 피하 침 요법 중 13 바늘 시술 14 및 마취 없이 흔들리는 움직임 수행, 15 쥐에서 신뢰할 수 있는 16 및 재현 가능한 임상적 제약 손상 모델 확립, 17 신경 병증성 통증 모델에서 행동 패턴18 및 전기 생리학적 반응을 정확하게 평가.

19 이 연구의 중요한 발견은쥐의 만성 수축 손상 모델에서 FSN 치료21의 신경통에 대한 치료 효과를 입증하는 20개, 22개, FSN 집중 치료 후 SFI 24 및 전기생리학적 검사25를 사용하여 치료 효과를 평가하기 위한 프로토콜 23을 제시하는 것을 포함합니다. 26 이 연구의 결과는 연구를 발전시킬 것입니다. 26 이 연구의 결과는 연구를 발전시킬 것입니다.27 FSN 치료를 평가하기 위한 프로토콜(28)을 제공하고, 기초 연구29와 임상 적용을 연결하고, 환자의 결과를 개선하고, 30 신경병증성 통증에서 보다 효과적인 치료를 위해 질병 메커니즘31에 대한 이해를 높임으로써. 32 앞으로 우리 연구실은면역조직화학(immunohistochemistry)34 및 형태학적 변이(morphological variation)35를 통합하여 신경 압박 관련 질환에 대한 Fu의 피하 침 요법(37)의 효과(36)를 검증하는 것을 목표로 합니다.

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