Stimulation parameters for directional vagus nerve stimulation.

Bioelectronic medicine Pub Date : 2023-07-18 DOI:10.1186/s42234-023-00117-2

Joel Villalobos, Sophie C Payne, Glenn M Ward, Sofianos Andrikopoulos, Tomoko Hyakumura, Richard J MacIsaac, James B Fallon

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Abstract

Background: Autonomic nerve stimulation is used as a treatment for a growing number of diseases. We have previously demonstrated that application of efferent vagus nerve stimulation (eVNS) has promising glucose lowering effects in a rat model of type 2 diabetes. This paradigm combines high frequency pulsatile stimulation to block nerve activation in the afferent direction with low frequency stimulation to activate the efferent nerve section. In this study we explored the effects of the parameters for nerve blocking on the ability to inhibit nerve activation in the afferent direction. The overarching aim is to establish a blocking stimulation strategy that could be applied using commercially available implantable pulse generators used in the clinic.

Methods: Male rats (n = 20) had the anterior abdominal vagus nerve implanted with a multi-electrode cuff. Evoked compound action potentials (ECAP) were recorded at the proximal end of the electrode cuff. The efficacy of high frequency stimulation to block the afferent ECAP was assessed by changes in the threshold and saturation level of the response. Blocking frequency and duty cycle of the blocking pulses were varied while maintaining a constant 4 mA current amplitude.

Results: During application of blocking at lower frequencies (≤ 4 kHz), the ECAP threshold increased (ANOVA, p < 0.001) and saturation level decreased (p < 0.001). Application of higher duty cycles (> 70%) led to an increase in evoked neural response threshold (p < 0.001) and a decrease in saturation level (p < 0.001). During the application of a constant pulse width and frequency (1 or 1.6 kHz, > 70% duty cycle), the charge delivered per pulse had a significant influence on the magnitude of the block (ANOVA, p = 0.003), and was focal (< 2 mm range).

Conclusions: This study has determined the range of frequencies, duty cycles and currents of high frequency stimulation that generate an efficacious, focal axonal block of a predominantly C-fiber tract. These findings could have potential application for the treatment of type 2 diabetes.

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定向迷走神经刺激的刺激参数。

背景：自律神经刺激可用于治疗越来越多的疾病。我们之前已经证明，在 2 型糖尿病大鼠模型中应用迷走神经传出刺激（eVNS）具有良好的降糖效果。这种模式结合了高频脉冲刺激和低频刺激，前者可阻断传入神经激活，后者可激活传出神经部分。在这项研究中，我们探讨了神经阻断参数对抑制传入方向神经激活能力的影响。其主要目的是建立一种可用于临床的商用植入式脉冲发生器的阻断刺激策略：雄性大鼠（n = 20）的前腹部迷走神经被植入了一个多电极袖带。在电极袖带近端记录诱发复合动作电位（ECAP）。根据反应阈值和饱和度的变化来评估高频刺激阻断传入复合动作电位（ECAP）的效果。在保持恒定的 4 毫安电流振幅的同时，改变阻断频率和阻断脉冲的占空比：结果：在较低频率（≤ 4 kHz）的阻滞过程中，ECAP阈值升高（方差分析，p 70%）导致诱发神经反应阈值升高（占空比 p 70%），每个脉冲输送的电荷对阻滞幅度有显著影响（方差分析，p = 0.003），并且是局灶性的：本研究确定了高频刺激的频率、占空比和电流范围，这些频率、占空比和电流可对主要为 C 纤维束的轴突产生有效的局灶性阻滞。这些发现有可能应用于 2 型糖尿病的治疗。

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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