Differentiating Postural and Kinetic Tremor Responses to Deep Brain Stimulation in Essential Tremor.

IF 2.6 4区 医学 Q2 CLINICAL NEUROLOGY
Rebecca D Butler, Annemarie K Brinda, Madeline Blumenfeld, Marina N Bryants, Peter M Grund, Shivansh R Pandey, Chelsea K S Cornish, Disa Sullivan, Jordan Krieg, Matthew Umoh, Jerrold L Vitek, Leonardo Almeida, Tseganesh Orcutt, Scott E Cooper, Matthew D Johnson
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Abstract

Background: While deep brain stimulation (DBS) targeting the ventral intermediate nucleus (VIM) of thalamus or posterior subthalamic area (PSA) can suppress forms of action tremor in people with Essential Tremor, previous studies have suggested postural tremor may respond more robustly than kinetic tremor to DBS.

Objectives: In this study, we aimed to more precisely quantify the (1) onset/offset dynamics and (2) steady-state effects of VIM/PSA-DBS on postural and kinetic tremor.

Methods: Tremor data from wireless inertial measurement units were collected from 11 participants with ET (20 unilaterally assessed DBS leads). Three postural hold tasks and one kinetic task were performed with stimulation turned off, in 2-min intervals after enabling unilateral DBS at the clinician-optimized DBS setting (15 min), and in 2-min intervals following cessation of DBS (5 min).

Results: At baseline, kinetic tremor had significantly higher amplitudes, standard deviation, and frequency than postural tremor (P < 0.001). DBS had a more robust acute effect on postural tremors (54% decrease, P < 0.001), with near immediate tremor suppression in amplitude and standard deviation, but had non-significant improvement of kinetic tremor on the population-level across the wash-in period (34% decrease). Tremor response was not equivalent between wash-in and wash-out timepoints and involved substantial individual variability including task-specific rebound or long wash-out effects.

Conclusions: Programming strategies for VIM/PSA-DBS should consider the individual temporal and effect size variability in postural versus kinetic tremor improvement. Improved targeting and programming strategies around VIM and PSA may be necessary to equivalently suppress both postural and kinetic tremors.

区分姿势性震颤和运动性震颤对深度脑刺激的反应。
背景:虽然针对丘脑腹侧中间核(VIM)或后丘脑下区(PSA)的脑深部刺激(DBS)可以抑制本质性震颤患者的各种形式的运动性震颤,但之前的研究表明,姿势性震颤可能比运动性震颤对DBS的反应更强烈:本研究旨在更精确地量化(1)VIM/PSA-DBS 对姿势性震颤和运动性震颤的起始/偏移动态和(2)稳态效应:从无线惯性测量单元收集了 11 名 ET 患者的震颤数据(20 个单侧评估的 DBS 导联)。在关闭刺激的情况下、在临床医生优化的 DBS 设置下启用单侧 DBS 后(15 分钟)以及在停止 DBS 后(5 分钟)的 2 分钟间隔内,分别执行了三项姿势保持任务和一项运动任务:结果:基线时,运动性震颤的振幅、标准偏差和频率均明显高于姿势性震颤(P 结论:运动性震颤的振幅、标准偏差和频率均明显高于姿势性震颤(P):VIM/PSA-DBS 的编程策略应考虑到姿势性震颤与运动性震颤改善的个体时间和效应大小差异。要同时抑制姿势性震颤和运动性震颤,可能需要改进 VIM 和 PSA 的靶向性和编程策略。
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
CiteScore
4.00
自引率
7.50%
发文量
218
期刊介绍: Movement Disorders Clinical Practice- is an online-only journal committed to publishing high quality peer reviewed articles related to clinical aspects of movement disorders which broadly include phenomenology (interesting case/case series/rarities), investigative (for e.g- genetics, imaging), translational (phenotype-genotype or other) and treatment aspects (clinical guidelines, diagnostic and treatment algorithms)
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