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脊髓刺激中的电极接触配置和能量消耗。

Electrode contact configuration and energy consumption in spinal cord stimulation.

机构信息

Department of Neurosurgery, Medisch Spectrum Twente Hospital, Enschede, The Netherlands. c.devos@ ziekenhuis- mst.nl

出版信息

Neurosurgery. 2009 Dec;65(6 Suppl):210-6; discussion 216-7. doi: 10.1227/01.NEU.0000342407.62397.01.

DOI:10.1227/01.NEU.0000342407.62397.01
PMID:19934997
Abstract

OBJECTIVE

To test the hypothesis that in spinal cord stimulation, an increase in the number of cathodes increases the energy per pulse, contrary to an increase in the number of anodes, which decreases energy consumption per pulse.

METHODS

Patients with an Itrel III (7425; Medtronic, Inc., Minneapolis, MN) implantable pulse generator and a Pisces-Quad (3487A; Medtronic, Inc.) implantable quadripolar lead were selected for this study. A set of 7 standard contact configurations was used for each patient. Resistor network models mimicking these configurations were constructed. The University of Twente's Spinal Cord Stimulation software was used to simulate the effect of these contact configurations on large spinal nerve fibers. To allow a comparison of the measured and modeled energy per pulse, all values were normalized.

RESULTS

Both the empirical and the modeling results showed an increase in energy consumption with an increasing number of cathodes. Although the patient data with 1 and 2 cathodes did not differ significantly, energy consumption was significantly higher when 3 cathodes were used instead of 1 or 2 cathodes. The average energy consumption was significantly higher when bipolar stimulation was used instead of monopolar cathodal stimulation. An increasing number of anodes caused a decrease in energy consumption.

CONCLUSION

When the paresthesia area can be covered with several configurations, it will be beneficial for the patient to program a configuration with 1 cathode and either no or multiple anodes.

摘要

目的

验证假设,即在脊髓刺激中,增加阴极数量会增加每个脉冲的能量,而增加阳极数量则会降低每个脉冲的能量消耗。

方法

选择使用 Itrel III(7425;Medtronic,Inc.,明尼苏达州明尼阿波利斯)可植入脉冲发生器和 Pisces-Quad(3487A;Medtronic,Inc.)可植入四极导联的患者进行这项研究。为每位患者使用了一组 7 个标准接触配置。构建了模拟这些配置的电阻网络模型。使用特温特大学的脊髓刺激软件模拟这些接触配置对大脊髓神经纤维的影响。为了能够比较测量值和模型值的每个脉冲能量,所有值都进行了归一化。

结果

实证和建模结果都表明,随着阴极数量的增加,能量消耗也会增加。尽管 1 个和 2 个阴极的患者数据没有显著差异,但当使用 3 个阴极而不是 1 个或 2 个阴极时,能量消耗明显更高。与单极阴极刺激相比,双极刺激的平均能量消耗明显更高。阳极数量的增加会导致能量消耗减少。

结论

当可以用几种配置覆盖感觉区域时,对于患者来说,编程一个带有 1 个阴极和 0 个或多个阳极的配置将是有益的。

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