Propranolol reduces Parkinson's tremor and inhibits tremor-related activity in the motor cortex: a placebo-controlled crossover trial

Anouk van der Heide, Maaike Wessel, Danae Papadopetraki, Dirk E.M. Geurts, Teije H. van Prooije, Frank Gommans, Bastiaan R. Bloem, Michiel F. Dirkx, Rick C. Helmich
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Abstract

Objective: Parkinson's disease (PD) resting tremor is thought to be initiated in the basal ganglia and amplified in the cerebello-thalamo-cortical circuit. Since stress worsens tremor, the noradrenergic system may play a role in amplifying tremor. We tested if and how propranolol, a non-selective beta-adrenergic receptor antagonist, reduces PD tremor, and whether or not this effect is specific to stressful conditions. Methods: In a cross-over, double-blind intervention study, participants with PD resting tremor received propranolol (40mg, single dose) or placebo (counter-balanced) on two different days. During both days, we assessed tremor severity (with accelerometry) and tremor-related brain activity (with functional Magnetic Resonance Imaging; fMRI), as well as heart rate and pupil diameter, while subjects performed a stressful cognitive load task that has been linked to the noradrenergic system. We tested for effects of drug (propranolol vs. placebo) and stress (cognitive load vs. rest) on tremor power and tremor-related brain activity. Results: We included 27 PD patients with clear resting tremor. Tremor power significantly increased during cognitive load vs. rest (F(1,19)=13.8; p=.001; ηp2=0.42) and decreased by propranolol vs. placebo (F(1,19)=6.4; p=.02; ηp2=0.25), but there was no interaction. We observed task-related brain activity in a stress-sensitive cognitive control network, and tremor power-related activity in the cerebello-thalamo-cortical circuit. Propranolol significantly reduced tremor-related activity in the motor cortex compared to placebo (F(1,21)=5.3; p=.03; ηp2=0.20), irrespective of cognitive load. Interpretation: Our findings indicate that the noradrenergic system has a general, context-independent role in amplifying PD tremor at the level of the primary motor cortex.
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普萘洛尔减轻帕金森氏症震颤并抑制运动皮层中与震颤相关的活动:安慰剂对照交叉试验
目的:帕金森病(PD)的静止性震颤被认为是由基底神经节引发,并在大脑丘脑-皮层回路中被放大。由于压力会加重震颤,因此去甲肾上腺素能系统可能在震颤的放大过程中发挥作用。我们测试了普萘洛尔(一种非选择性β肾上腺素能受体拮抗剂)是否以及如何减轻帕金森氏症震颤,并测试了这种效应是否只针对应激条件:在一项交叉双盲干预研究中,患有帕金森病静止性震颤的参与者在两个不同的日子里接受普萘洛尔(40 毫克,单剂量)或安慰剂(平衡)治疗。在这两天中,我们评估了震颤的严重程度(使用加速度计)和与震颤相关的大脑活动(使用功能性磁共振成像;fMRI)以及心率和瞳孔直径,同时受试者执行了一项与去甲肾上腺素能系统有关的紧张性认知负荷任务。我们测试了药物(普萘洛尔与安慰剂)和压力(认知负荷与休息)对震颤力和震颤相关大脑活动的影响:结果:我们共纳入了 27 名有明显静止性震颤的帕金森病患者。认知负荷与休息时震颤力明显增加(F(1,19)=13.8; p=.001; ηp2=0.42),普萘洛尔与安慰剂相比震颤力下降(F(1,19)=6.4; p=.02; ηp2=0.25),但没有交互作用。我们在对压力敏感的认知控制网络中观察到了与任务相关的大脑活动,并在小脑-大脑-皮层回路中观察到了与震颤力相关的活动。与安慰剂相比,普萘洛尔能明显降低运动皮层的震颤相关活动(F(1,21)=5.3; p=.03; ηp2=0.20),与认知负荷无关:我们的研究结果表明,去甲肾上腺素能系统在初级运动皮层水平上放大帕金森病震颤方面具有普遍的、与环境无关的作用。
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