Modified Spared Nerve Injury Surgery Model of Neuropathic Pain in Mice

Liangliang He; Wenxing Zhao; Lingyi Zhang; Maalveka Ilango; Na Zhao; Liqiang Yang; Zhonghui Guan

doi:10.3791/63362

JoVE Journal
Neuroscience

A subscription to JoVE is required to view this content. Sign in or start your free trial.

JoVE Journal Neuroscience

Modified Spared Nerve Injury Surgery Model of Neuropathic Pain in Mice

마우스의 신경병증성 통증에 대한 수정된 보존 신경 손상 수술 모델

Full Text

6,997 Views

04:34 min

January 25, 2022

DOI: 10.3791/63362-v

Liangliang He*^1,2, Wenxing Zhao*¹, Lingyi Zhang², Maalveka Ilango^2,3, Na Zhao², Liqiang Yang¹, Zhonghui Guan²

¹Department of Pain Management, Xuanwu Hospital,Capital Medical University, ²Department of Anesthesia and Perioperative Care,University of California San Francisco, ³University of Washington

Please note that some of the translations on this page are AI generated. Click here for the English version.

Overview

This study presents a modified surgical technique for inducing spared nerve injury in mice, combining the common peroneal and sural nerve ligation into a single procedure. This approach reduces the complexity and time required for the surgery, allowing for easier assessment of neuropathic pain mechanisms.

Key Study Components

Area of Science

Neuroscience
Surgical methods
Neuropathic pain models

Background

Traditional nerve injury models often involve complex procedures.
The need for simplified protocols to study neuropathic pain is critical.
Comparative analyses of surgical methods can lead to improved animal welfare and efficiency.
A focus on reducing learning curves for researchers is essential.

Purpose of Study

To simplify the surgical approach for nerve injury in rodents.
To reduce operation time without compromising the efficacy of injury.
To enable more accessible studies on the molecular and cellular mechanisms of neuropathic pain.

Methods Used

The study utilized a mouse model for conducting the modified surgery.
Involved ligation of both the common peroneal and sural nerves while preserving the tibial nerve.
The procedure is characterized by a one-ligation, one-cut technique.
Key surgical steps included positioning, disinfection, incision, isolation, and ligation of the nerves.
Performed evaluations through postoperative assessments comparing traditional methods.

Main Results

The modified surgery significantly reduced procedure time by almost half compared to traditional methods.
No differences in mechanical hypersensitivity were noted between the modified and traditional methods at baseline and after surgery.
Both methods induced similar responses in terms of neuropathic pain assessment over the studied duration.
Streamlined exposure and identification of critical nerve structures were highlighted as significant advancements.

Conclusions

This modified surgical technique demonstrates a valuable approach for studying peripheral nerve injury and associated pain mechanisms.
The simplification of surgical methods has implications for enhancing procedural efficacy in research.
Facilitating accurate surgical outcomes contributes to better understanding of neuropathic pain syndromes.

Frequently Asked Questions

What are the advantages of this modified surgery?

The modified surgery significantly reduces procedure time and complexity, making it easier for researchers to perform and replicate.

How is nerve injury implemented in this study?

The procedure involves ligating the common peroneal and sural nerves while preserving the tibial nerve, all achieved with one cut and one ligation.

What type of data is obtained from this method?

Data on mechanical hypersensitivity and other pain responses are obtained through postoperative assessments.

How can this method be applied in future research?

This technique can be employed to study various aspects of neuropathic pain mechanisms, potentially in conjunction with molecular assessments.

Are there any limitations to this surgical model?

While the method streamlines the procedure, variations in individual animal response and the potential for surgical complications should be considered.

수정된 수술은 생쥐 또는 쥐 보존 신경 손상 모델에 대한 단순화된 방법으로, 일반 비골 신경과 천성 신경을 모두 손상시키기 위해 한 번의 결찰과 한 번의 절개만으로 됩니다.

SNIt로 정의되는 온전한 경골 신경으로 일반적인 비골 및 경골 신경을 절단하고 결찰하는 것은 학습 곡선이 짧고 운동 결함이 훨씬 적습니다. 변형된 마우스 SNIt 수술 방법은 일반 비골 및 비골 신경을 결찰하고 한 번의 신경 결찰과 한 번의 신경 절단으로 함께 결찰하도록 개발되어 수술 시간을 단축했습니다. 시작하려면 마우스를 오른쪽 측면 위치에 놓습니다.

무릎 굴곡으로 왼쪽 다리를 위로 유지하고 접착 테이프로 고정합니다. 허벅지와 무릎 주위의 털을 전기 면도기와 제모 크림으로 제거합니다. 새 멸균 수술 수건에 마우스를 놓은 후 2% 클로르헥시딘과 70% 알코올로 피부를 소독합니다.

View the full transcript and gain access to thousands of scientific videos