Electrical stimulation of the auricular branch of the vagus nerve potentiates analgesia induced by physical exercise in mice with peripheral inflammation.

IF 2.6 3区医学 Q2 BEHAVIORAL SCIENCES

Frontiers in Integrative Neuroscience Pub Date : 2023-10-12 eCollection Date: 2023-01-01 DOI:10.3389/fnint.2023.1242278

Aline Raulino Dutra, Daiana Cristina Salm, Rafaela Hardt da Silva, Fernanda Tanaka, Daniela Dero Lutdke, Bruna Hoffmann de Oliveira, Rose Lampert, Edsel B Bittencourt, Gianluca Bianco, Vinícius M Gadotti, William R Reed, Josiel Mileno Mack, Franciane Bobinski, Ari O O Moré, Daniel Fernandes Martins

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Abstract

Objective: This study evaluated the antihyperalgesic and anti-inflammatory effects of percutaneous vagus nerve electrical stimulation (pVNS) associated with physical exercise, i.e., swimming, in mice with peripheral inflammation.

Methods: The pain model was induced by intraplantar (i.pl.) injection of Freund's complete adjuvant (CFA). Sixty-four male Swiss mice (35-40 g) received an i.pl. of CFA and underwent behavioral tests, i.e., mechanical hyperalgesia, edema, and paw temperature tests. Additionally, cytokine levels, specifically interleukin-6 (IL-6) and interleukin-10 (IL-10), were determined by enzyme-linked immunosorbent assay. Mice were treated with swimming exercise for 30 min alone or associated with different time protocols (10, 20, or 30 min) of stimulation in the left ear with random frequency during four consecutive days.

Results: pVNS for 20 min prolonged the antihyperalgesic effect for up to 2 h, 24 h after CFA injection. pVNS for 30 min prolonged the antihyperalgesic effect for up to 7 h, 96 h after CFA injection. However, it did not alter the edema or temperature at both analyzed times (24 and 96 h). Furthermore, the combination of pVNS plus swimming exercise, but not swimming exercise alone, reduced IL-6 levels in the paw and spinal cord, as well as IL-10 levels in the spinal cord.

Conclusion: pVNS potentiates the analgesic effect induced by swimming, which may be, at least in part, mediated by the modulation of inflammatory cytokines in the periphery (paw) and central nervous system (spinal cord). Therefore, the combination of these therapies may serve as an important adjunctive treatment for persistent inflammatory pain.

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电刺激迷走神经耳支可增强运动对周围炎症小鼠的镇痛作用。

目的：本研究评估了经皮迷走神经电刺激（pVNS）与体育锻炼（即游泳）相关的外周炎症小鼠的镇痛和抗炎作用。方法：采用弗氏完全佐剂（CFA）腹腔注射致痛模型。64只雄性瑞士小鼠（35-40g）接受CFA的腹腔注射，并接受行为测试，即机械痛觉过敏、水肿和爪温测试。此外，通过酶联免疫吸附测定法测定细胞因子水平，特别是白细胞介素-6（IL-6）和白细胞介蛋白-10（IL-10）。小鼠单独进行游泳运动30分钟，或在连续四天内以随机频率对左耳进行不同时间方案（10、20或30分钟）的刺激。结果：pVNS作用20min可延长CFA注射后2h、24h的镇痛作用。pVNS 30分钟可延长CFA注射后长达7小时、96小时的镇痛作用。然而，在两个分析时间（24和96小时），它都没有改变水肿或温度。此外，pVNS与游泳运动的组合，而不是单独的游泳运动，降低了爪子和脊髓中的IL-6水平，以及脊髓中的IL-10水平。结论：pVNS增强游泳诱导的镇痛作用，这可能至少部分由外周（爪）和中枢神经系统（脊髓）炎症细胞因子的调节介导。因此，这些疗法的结合可能是持续性炎症疼痛的重要辅助治疗方法。

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

Frontiers in Integrative Neuroscience Neuroscience-Cellular and Molecular Neuroscience

CiteScore

4.60

自引率

2.90%

发文量

148

审稿时长

14 weeks

期刊介绍： Frontiers in Integrative Neuroscience publishes rigorously peer-reviewed research that synthesizes multiple facets of brain structure and function, to better understand how multiple diverse functions are integrated to produce complex behaviors. Led by an outstanding Editorial Board of international experts, this multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Our goal is to publish research related to furthering the understanding of the integrative mechanisms underlying brain functioning across one or more interacting levels of neural organization. In most real life experiences, sensory inputs from several modalities converge and interact in a manner that influences perception and actions generating purposeful and social behaviors. The journal is therefore focused on the primary questions of how multiple sensory, cognitive and emotional processes merge to produce coordinated complex behavior. It is questions such as this that cannot be answered at a single level – an ion channel, a neuron or a synapse – that we wish to focus on. In Frontiers in Integrative Neuroscience we welcome in vitro or in vivo investigations across the molecular, cellular, and systems and behavioral level. Research in any species and at any stage of development and aging that are focused at understanding integration mechanisms underlying emergent properties of the brain and behavior are welcome.