Nuffield Department of Surgical Sciences, University of Oxford, Oxford, UK.
Academy of Medical Engineering and Translational Medicine, Tianjin University, Tianjin, China.
Neuromodulation. 2021 Jun;24(4):646-654. doi: 10.1111/ner.13408. Epub 2021 May 11.
Dorsal root ganglion stimulation (DRGS) has become a popular neuromodulatory treatment for neuropathic pain. We used magnetoencephalography (MEG) to investigate potential biomarkers of pain and pain relief, based on the differences in power spectral density (PSD) during varying degrees of pain and how these oscillations change during DRGS-mediated pain relief.
Thirteen chronic pain patients with implanted dorsal root ganglion stimulators were included in the MEG analysis. MEG Recordings were performed at rest while the stimulator was turned ON or OFF. Numerical rating scale (NRS) scores were also recorded before and after DRGS was turned OFF and ON. Power spectral and source localization analyses were then performed on preprocessed MEG recordings.
With DRGS-OFF, patients in severe pain had significantly increased cortical theta (4-7 Hz) power and decreased cortical alpha (7-13 Hz) power compared to patients reporting less pain. This shift in power toward lower frequencies was contrasted by a shift toward the higher frequency power spectrum (low beta 13-20 Hz activity) during DRGS-mediated pain relief. A significant correlation was found between the increase in low beta activity and the degree of reported pain relief.
Our results demonstrate increased low-frequency power spectral activity in chronic pain patients in the absence of stimulation which shifts toward higher frequency power spectrum activity in response to therapeutic DRGS. These cortical changes in response to DRGS provide support for the use of neuroimaging in the search for potential biomarkers of pain.
背根神经节刺激(DRGS)已成为治疗神经性疼痛的一种流行神经调节治疗方法。我们使用脑磁图(MEG)来研究疼痛和疼痛缓解的潜在生物标志物,这些标志物基于不同程度疼痛期间的功率谱密度(PSD)差异,以及这些波动在 DRGS 介导的疼痛缓解过程中如何变化。
13 名植入背根神经节刺激器的慢性疼痛患者被纳入 MEG 分析。MEG 记录在刺激器开启或关闭时在休息时进行。在 DRGS 关闭和开启前后还记录了数字评定量表(NRS)评分。然后对预处理的 MEG 记录进行功率谱和源定位分析。
DRGS-OFF 时,与疼痛较轻的患者相比,处于严重疼痛中的患者的皮质θ(4-7 Hz)功率显著增加,皮质α(7-13 Hz)功率降低。这种向低频的功率转移与 DRGS 介导的疼痛缓解期间向较高频功率谱(低β 13-20 Hz 活动)的转移形成对比。在低β活动增加与报告的疼痛缓解程度之间发现了显著相关性。
我们的结果表明,在没有刺激的情况下,慢性疼痛患者的低频功率谱活动增加,而对治疗性 DRGS 的反应则向较高频功率谱活动转移。DRGS 引起的这些皮质变化为在寻找疼痛潜在生物标志物方面使用神经影像学提供了支持。
