心脏同步迷走神经刺激参数对不同心脏神经支配水平的促时差反应的重要性

M. Haberbusch, B. Kronsteiner, P. Aigner, Attila Kiss, B. Podesser, Francesco Moscato
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摘要

迷走神经刺激(VNS)参数对不同心脏神经支配水平下诱发心脏效应的影响尚不十分清楚。本研究探讨了迷走神经刺激在不同心脏神经支配状态下对心率(HR)调节的影响,为迷走神经刺激在心脏疗法中的潜在优化提供了数据。本研究利用之前发表的对六只神经支配完好的绵羊进行的迷走神经刺激实验数据,以及对五只双侧喙迷走神经切断术后的兔子和四只受交感神经影响的离体兔子心脏进行的额外实验数据,探讨了不同迷走神经刺激参数对心率的影响。研究发现,各组之间的生理阈值电荷存在显著差异:完整心脏为 0.09 ± 0.06 μC,迷走神经切断心脏为 0.20 ± 0.04 μC,离体心脏为 9.00 ± 0.75 μC。电荷是所有神经支配状态下心率降低的关键决定因素,从完整心脏(r = 0.7)到离体心脏(r = 0.44),相关性不断降低。脉冲数呈反比关系,在神经支配减少的情况下,脉冲数的影响越来越大(完整心脏 r = 0.11,孤立心脏 r = 0.37)。我们的研究首次强调了 VNS 参数(包括刺激强度、脉冲宽度和脉冲数)在不同心脏神经支配状态下对心率的重要调节作用。强度和脉冲宽度对神经支配状态下的心率有显著影响,而脉冲数则是去神经支配状态下的关键。在所有神经支配状态下,频率和延迟的影响较小。这些研究结果表明了根据神经支配状态定制 VNS 治疗的重要性,为优化心脏神经调控提供了启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Importance of cardiac-synchronized vagus nerve stimulation parameters on the provoked chronotropic response for different levels of cardiac innervation
The influence of vagus nerve stimulation (VNS) parameters on provoked cardiac effects in different levels of cardiac innervation is not well understood yet. This study examines the effects of VNS on heart rate (HR) modulation across a spectrum of cardiac innervation states, providing data for the potential optimization of VNS in cardiac therapies.Utilizing previously published data from VNS experiments on six sheep with intact innervation, and data of additional experiments in five rabbits post bilateral rostral vagotomy, and four isolated rabbit hearts with additionally removed sympathetic influences, the study explored the impact of diverse VNS parameters on HR.Significant differences in physiological threshold charges were identified across groups: 0.09 ± 0.06 μC for intact, 0.20 ± 0.04 μC for vagotomized, and 9.00 ± 0.75 μC for isolated hearts. Charge was a key determinant of HR reduction across all innervation states, with diminishing correlations from intact (r = 0.7) to isolated hearts (r = 0.44). An inverse relationship was observed for the number of pulses, with its influence growing in conditions of reduced innervation (intact r = 0.11, isolated r = 0.37). Frequency and stimulation delay showed minimal correlations (r < 0.17) in all conditions.Our study highlights for the first time that VNS parameters, including stimulation intensity, pulse width, and pulse number, crucially modulate heart rate across different cardiac innervation states. Intensity and pulse width significantly influence heart rate in innervated states, while pulse number is key in denervated states. Frequency and delay have less impact impact across all innervation states. These findings suggest the importance of customizing VNS therapy based on innervation status, offering insights for optimizing cardiac neuromodulation.
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