Swinnen Bart E K S, Hoy Colin W, Pegolo Elena, Ishihara Bryony, Matzilevich Elena Ubeda, Sun Julia, Morgante Francesca, Pereira Erlick, Baig Fahd, Hart Michael, Tan Huiling, Sawacha Zimi, Beudel Martijn, Wang Sarah, Starr Philip, Little Simon, Ricciardi Lucia
Department of Neurology, University of California San Francisco, San Francisco, CA 94158, USA.
Department of Neurology, Amsterdam University Medical Centers, Amsterdam Neuroscience, University of Amsterdam, Amsterdam 1105 AZ, The Netherlands.
Brain. 2025 Apr 3;148(4):1228-1241. doi: 10.1093/brain/awae313.
Neuropsychiatric symptoms are common and disabling in Parkinson's disease, with troublesome anxiety occurring in one-third of patients. Management of anxiety in Parkinson's disease is challenging, hampered by insufficient insight into underlying mechanisms, lack of objective anxiety measurements and largely ineffective treatments. In this study, we assessed the intracranial neurophysiological correlates of anxiety in patients with Parkinson's disease treated with deep brain stimulation (DBS) in the laboratory and at home. We hypothesized that low-frequency (theta-alpha) activity would be associated with anxiety. We recorded local field potentials from subthalamic nucleus or globus pallidus pars interna DBS implants in three Parkinson's disease cohorts: (i) patients with recordings (subthalamic nucleus) performed in hospital at rest via perioperatively externalized leads, without active stimulation, both ON and OFF dopaminergic medication; (ii) patients with recordings (subthalamic nucleus or globus pallidus pars interna) performed at home while resting, via a chronically implanted commercially available sensing-enabled neurostimulator (Medtronic Percept™ device), ON dopaminergic medication, with stimulation both on and off; and (iii) patients with recordings performed at home while engaging in a behavioural task via subthalamic nucleus and globus pallidus pars interna leads and electrocorticography paddles over the premotor cortex connected to an investigational sensing-enabled neurostimulator, ON dopaminergic medication, with stimulation both on and off. Trait anxiety was measured with validated clinical scales in all participants, and state anxiety was measured with momentary assessment scales at multiple time points in the two at-home cohorts. Power in theta (4-8 Hz) and alpha (8-12 Hz) ranges was extracted from the local field potential recordings, and its relationship with anxiety ratings was assessed using linear mixed-effects models. In total, 33 patients with Parkinson's disease (59 hemispheres) were included. Across three independent cohorts, with stimulation off, basal ganglia theta power was positively related to trait anxiety (all P < 0.05). Also in a naturalistic setting, with individuals at home, at rest, with stimulation and medication ON, basal ganglia theta power was positively related to trait anxiety (P < 0.05). This relationship held regardless of the hemisphere and DBS target. There was no correlation between trait anxiety and premotor cortical theta-alpha power. There was no within-patient association between basal ganglia theta-alpha power and state anxiety. We showed that basal ganglia theta activity indexes trait anxiety in Parkinson's disease. Our data suggest that theta could be a possible physiomarker of neuropsychiatric symptoms and specifically of anxiety in Parkinson's disease, potentially suitable for guiding advanced DBS treatment tailored to the needs of the individual patient, including non-motor symptoms.
神经精神症状在帕金森病中很常见且会导致功能障碍,约三分之一的患者会出现令人困扰的焦虑症状。帕金森病焦虑症的管理颇具挑战性,这受到对潜在机制认识不足、缺乏客观焦虑测量方法以及治疗效果大多不佳的阻碍。在本研究中,我们评估了在实验室和家中接受深部脑刺激(DBS)治疗的帕金森病患者焦虑的颅内神经生理相关性。我们假设低频(θ-α)活动与焦虑有关。我们在三个帕金森病队列中记录了丘脑底核或苍白球内侧部DBS植入物的局部场电位:(i)通过围手术期外置导线在医院静息状态下进行记录(丘脑底核)的患者,未进行主动刺激,分别在多巴胺能药物开启和关闭时记录;(ii)通过长期植入的市售具备传感功能的神经刺激器(美敦力Percept™设备)在患者家中静息状态下进行记录(丘脑底核或苍白球内侧部)的患者,多巴胺能药物开启,刺激开启和关闭时均进行记录;(iii)通过丘脑底核和苍白球内侧部导线以及连接到研究性具备传感功能的神经刺激器的运动前皮质上的皮质脑电图电极片,在患者家中进行行为任务时进行记录的患者,多巴胺能药物开启,刺激开启和关闭时均进行记录。在所有参与者中使用经过验证的临床量表测量特质焦虑,在两个家中队列的多个时间点使用瞬时评估量表测量状态焦虑。从局部场电位记录中提取θ(4 - 8Hz)和α(8 - 12Hz)频段的功率,并使用线性混合效应模型评估其与焦虑评分的关系。总共纳入了33例帕金森病患者(59个半球)。在三个独立队列中,刺激关闭时,基底神经节θ功率与特质焦虑呈正相关(所有P < 0.05)。同样在自然环境中,当个体在家中静息、刺激和药物开启时情况下,基底神经节θ功率与特质焦虑呈正相关(P < 0.05)。无论半球和DBS靶点如何,这种关系都成立。特质焦虑与运动前皮质θ-α功率之间没有相关性。基底神经节θ-α功率与状态焦虑在患者个体内没有关联。我们表明基底神经节θ活动可作为帕金森病特质焦虑的指标。我们的数据表明,θ可能是神经精神症状尤其是帕金森病焦虑的一种可能的生理标志物,可能适用于指导根据个体患者需求定制的先进DBS治疗,包括非运动症状。
