Unilateral caudal zona incerta deep brain stimulation for Parkinsonian tremor

BackgroundThe subthalamic nucleus is currently the target of choice in deep brain stimulation (DBS) for Parkinson's disease (PD), while thalamic DBS is used in some cases of tremor-dominant PD. Recently, a number of studies have presented promising results from DBS in the posterior subthalamic area, including the caudal zona incerta (cZi). The aim of the current study was to evaluate cZi DBS in tremor-dominant Parkinson's disease.Methods14 patients with predominately unilateral tremor-dominant PD and insufficient relief from pharmacologic therapy were included and evaluated according to the motor part of the Unified Parkinson Disease Rating Scale (UPDRS). The mean age was 65 ± 6.1 years and the disease duration 7 ± 5.7 years. Thirteen patients were operated on with unilateral cZi DBS and 1 patient with a bilateral staged procedure. Five patients had non-L-dopa responsive symptoms. The patients were evaluated on/off medication before surgery and on/off medication and stimulation after a minimum of 12 months after surgery.ResultsAt the follow-up after a mean of 18.1 months stimulation in the off-medication state improved the contralateral UPDRS III score by 47.7%. Contralateral tremor, rigidity, and bradykinesia were improved by 82.2%, 34.3%, and 26.7%, respectively. Stimulation alone abolished tremor at rest in 10 (66.7%) and action tremor in 8 (53.3%) of the patients.ConclusionUnilateral cZi DBS seems to be safe and effective for patients with severe Parkinsonian tremor. The effects on rigidity and bradykinesia were, however, not as profound as in previous reports of DBS in this area.     

Somatomotor mu rhythm amplitude correlates with rigidity during deep brain stimulation in Parkinsonian patients

Objective

Parkinsonian patients have abnormal oscillatory activity within the basal ganglia-thalamocortical circuitry. Particularly, excessive beta band oscillations are thought to be associated with akinesia. We studied whether cortical spontaneous activity is modified by deep brain stimulation (DBS) in advanced Parkinson’s disease and if the modifications are related to the clinical symptoms.

Methods

We studied the effects of bilateral electrical stimulation of subthalamic nucleus (STN) on cortical spontaneous activity by magnetoencephalography (MEG) in 11 Parkinsonian patients. The artifacts produced by DBS were suppressed by tSSS algorithm.

Results

During DBS, UPDRS (Unified Parkinson’s Disease Rating Scale) rigidity scores correlated with 6-10 Hz and 12-20 Hz somatomotor source strengths when eyes were open. When DBS was off UPDRS action tremor scores correlated with pericentral 6-10 Hz and 21-30 Hz and occipital alpha source strengths when eyes open.Occipital alpha strength decreased during DBS when eyes closed. The peak frequency of occipital alpha rhythm correlated negatively with total UPDRS motor scores and with rigidity subscores, when eyes closed.

Conclusion

STN DBS modulates brain oscillations both in alpha and beta bands and these oscillations reflect the clinical condition during DBS.

Significance

MEG combined with an appropriate artifact rejection method enables studies of DBS effects in Parkinson’s disease and presumably also in the other emerging DBS indications.     

The oscillatory activity in the Parkinsonian subthalamic nucleus investigated using the macro-electrodes for deep brain stimulation.

OBJECTIVES: To investigate the oscillatory activity in the Parkinsonian subthalamic nucleus using the macro-electrodes for deep brain stimulation. METHODS: During bilateral deep brain stimulating electrode implantation, spontaneous and evoked field potentials were recorded from the subthalamic nucleus (STN) in two patients with Parkinson's disease (PD) during spontaneous resting tremor, passive manipulation of the wrist, and following electrical stimulation of the contralateral STN. RESULTS: Frequency analysis of the STN field potentials recorded during spontaneous resting tremor showed significant coherence with electromyographic activity in the contralateral arm, suggesting a close involvement of the STN in the generation of resting tremor in PD. The STN responded to passive movement of the contralateral wrist, but not to ipsilateral movement. High frequency (100 Hz) electrical stimulation of the STN induced tremor (4 Hz) in both forearms, and also oscillation of the contralateral STN (4 Hz). In contrast, low frequency (5 Hz) stimulation induced contralateral arrhythmic involuntary movement (3 Hz), but without altering the contralateral STN activity. CONCLUSIONS: We propose that the functional connection between the STN and arm muscles is mainly contralateral, but cross talk may occur between bilateral STN via a frequency-dependent pathway.     

丘脑底核脑深部电刺激术治疗帕金森病早期语音声学研究

目的 探讨丘脑底核（STN）脑深部电刺激术（DBS）治疗帕金森病（PD）患者构音障碍的早期疗效.方法 回顾性纳入南京医科大学附属脑科医院神经外科2017年5月至11月行STN-DBS治疗的10例PD患者（PD组）,同时纳入健康志愿者10名（健康对照组）.对未服药状态下的10例PD患者,分别于术后1个月未开机、开机后1个月和开机后3个月,在相对安静的房间录制语音,应用Praat软件分析语音信号并提取3个基频参数,分别为基频均值、基频范围和基频标准差.同时对健康对照组受试者进行语音信号采集和分析.结果 PD患者术后1个月未开机时,语音的基频范围[PD组为（15.5 ±4.8） St、健康对照组为（22.5 ±5.6） St,t=-2.962,P=0.008]和基频标准差[PD组为（2.4±0.7）St、健康对照组为（3.7±0.8）St,t=-4.017,P=0.001]均显著小于健康对照组.PD患者开机后1个月时,语音的3个基频参数与术后1个月未开机时的差异均无统计学意义（均P＞0.05）;开机后3个月时,语音的基频范围[开机后3个月为（19.2 ±3.8）St、术后1个月未开机为（15.5 ±4.8）St,P=0.017]和基频标准差[开机后3个月为（3.2±0.8）St、术后1个月未开机为（2.4±0.7）St,P=0.001]均显著高于术后1个月未开机时,且与健康对照组间3个基频参数的差异均无统计学意义（均P＞0.05）.结论 STN-DBS治疗早期能改善PD患者语音语调单一的特征,缓解患者喉部肌肉及声带僵硬情况.     

Parkinsonian gait improves with bilateral subthalamic nucleus deep brain stimulation during cognitive multi-tasking

BackgroundGait impairment in Parkinson's disease reduces mobility and increases fall risk, particularly during cognitive multi-tasking. Studies suggest that bilateral subthalamic deep brain stimulation, a common surgical therapy, degrades motor performance under cognitive dual-task conditions, compared to unilateral stimulation.ObjectiveTo measure the impact of bilateral versus unilateral subthalamic deep brain stimulation on walking kinematics with and without cognitive dual-tasking.MethodsGait kinematics of seventeen patients with advanced Parkinson's disease who had undergone bilateral subthalamic deep brain stimulation were examined off medication under three stimulation states (bilateral, unilateral left, unilateral right) with and without a cognitive challenge, using an instrumented walkway system.ResultsConsistent with earlier studies, gait performance declined for all six measured parameters under cognitive dual-task conditions, independent of stimulation state. However, bilateral stimulation produced greater improvements in step length and double-limb support time than unilateral stimulation, and achieved similar performance for other gait parameters.ConclusionsContrary to expectations from earlier studies of dual-task motor performance, bilateral subthalamic deep brain stimulation may assist in maintaining temporal and spatial gait performance under cognitive dual-task conditions.     

The pedunculopontine nucleus and movement disorders: anatomy and the role for deep brain stimulation

The pedunculopontine nucleus (PPN) is a brainstem locomotive center that also processes sensory and behavioral information. Through its connections with basal ganglia structures and the spinal cord, the PPN may play a role in axial motor symptoms in Parkinson's disease (PD). We review the anatomical features of the PPN, its role in motor control, and its potential role as a target for PD surgery, including the results of recently published clinical studies.     

Lesion of thalamic centromedian--parafascicular complex after chronic deep brain stimulation

A patient with PD who exhibited disabling tremor and prominent dyskinesia underwent deep brain stimulation (DBS) of the left thalamic ventral intermediate nucleus. The electrode migrated and was replaced but with suboptimal clinical response. Two years later, postmortem analysis found the second electrode tip had entered the thalamic centromedian-parafascicular complex. There was a small thalamotomy and cell loss exceeding that found in PD. Thalamic damage may occur in association with DBS for PD.     

Predictors of deep brain stimulation outcome in tremor patients

Background

Deep brain stimulation of the ventro-intermedius nucleus of the thalamus is an established treatment for tremor of differing etiologies but factors that may predict the short- and especially long-term outcome of surgery are still largely unknown.

Tremor induced by thalamic deep brain stimulation in patients with complex regional facial pain.

We report on two patients who developed a new postural and action tremor after chronic stimulation of the contralateral thalamus (VPM nucleus) during treatment of a complex regional facial pain syndrome. The tremor was only present during deep brain stimulation (DBS) and was suppressed with adjustment of the stimulation parameters. Tremor was seen only with low frequency stimulation (50 Hz or lower) and disappeared with higher stimulation frequencies. In addition to being an unusual side effect of thalamic DBS, we believe that this phenomenon affords insight into one possible mechanism underlying essential tremor (ET). A central oscillatory mechanism involving the olivocerebellar complex and the thalamus, which is a part of the cerebro-cerebello-cerebral circuit, is thought to play an important role in the genesis of ET. Induction of a tremor resembling ET in our patients indicates an active role for low frequency stimulation. A plausible explanation for this is that low frequency stimulation in the thalamic area enhances the output of the tremor-producing network. This leads credence to the concept of central oscillations in a "tremor circuit," of which the thalamus is a part, as being important in ET.     

Endovascular deep brain stimulation: Investigating the relationship between vascular structures and deep brain stimulation targets

BackgroundEndovascular delivery of current using ‘stentrodes’ – electrode bearing stents – constitutes a potential alternative to conventional deep brain stimulation (DBS). The precise neuroanatomical relationships between DBS targets and the vascular system, however, are poorly characterized to date.ObjectiveTo establish the relationships between cerebrovascular system and DBS targets and investigate the feasibility of endovascular stimulation as an alternative to DBS.MethodsNeuroanatomical targets as employed during deep brain stimulation (anterior limb of the internal capsule, dentatorubrothalamic tract, fornix, globus pallidus pars interna, medial forebrain bundle, nucleus accumbens, pedunculopontine nucleus, subcallosal cingulate cortex, subthalamic nucleus, and ventral intermediate nucleus) were superimposed onto probabilistic vascular atlases obtained from 42 healthy individuals. Euclidian distances between targets and associated vessels were measured. To determine the electrical currents necessary to encapsulate the predefined neurosurgical targets and identify potentially side-effect inducing substrates, a preliminary volume of tissue activated (VTA) analysis was performed.ResultsSix out of ten DBS targets were deemed suitable for endovascular stimulation: medial forebrain bundle (vascular site: P1 segment of posterior cerebral artery), nucleus accumbens (vascular site: A1 segment of anterior cerebral artery), dentatorubrothalamic tract (vascular site: s2 segment of superior cerebellar artery), fornix (vascular site: internal cerebral vein), pedunculopontine nucleus (vascular site: lateral mesencephalic vein), and subcallosal cingulate cortex (vascular site: A2 segment of anterior cerebral artery). While VTAs effectively encapsulated mfb and NA at current thresholds of 3.5 V and 4.5 V respectively, incremental amplitude increases were required to effectively cover fornix, PPN and SCC target (mean voltage: 8.2 ± 4.8 V, range: 3.0–17.0 V). The side-effect profile associated with endovascular stimulation seems to be comparable to conventional lead implantation. Tailoring of targets towards vascular sites, however, may allow to reduce adverse effects, while maintaining the efficacy of neural entrainment within the target tissue.ConclusionsWhile several challenges remain at present, endovascular stimulation of select DBS targets seems feasible offering novel and exciting opportunities in the neuromodulation armamentarium.     

Is there a role for physiotherapy during deep brain stimulation surgery in patients with Parkinson's disease?

In our center, a physiotherapist is present in the operative room to bring relief to the Parkinsonian patient during subthalamic nucleus stimulation surgery under local anesthesia. This study searched to determine the causes of pain and suffering during bilateral electrode implantation and to assess the role of physiotherapy. Ninety-two consecutive patients operated on between 2001 and 2004 were included in this retrospective study. A questionnaire with eight items was developed and mailed to the patients. Seventy-five responses to questionnaires were available. All patients except one experienced physical pain and psychological suffering, alleviated by physiotherapy. These preliminary results need to be confirmed in a prospective randomized study.     

Implications for programming strategy of the location of the active contact in subthalamic nucleus deep brain stimulation

We aimed to determine whether our targeting method for the subthalamic nucleus (STN) in Parkinson's disease informs the initial programming sequence. We evaluated 100 STN-lead pairs from 50 patients who underwent bilateral STN-deep brain stimulation operations. All patients had at least one year of follow-up. In each patient, we measured coordinates of the STN borders and determined the center from special T2-weighted MRI. We then measured the postoperative location of the lead tip by MRI registered to preoperative images. Finally, we determined the mode and active contact(s). Programming was monopolar 71% of the time. A total of 52% of left and 72% of right STN active contacts were located posterolateral to the STN center. In z, only 14% of the active contact(s) were >1mm below the STN center. Contacts 1 or 2 were active 90% of the time. The consistent location of active contacts suggests that initial programming began with contact 1 or 2.     

Thalamic deep brain stimulation for tremor among multiple sclerosis patients

Background and purposeDisabling tremor might be the main cause of disability of multiple sclerosis (MS) patients. Neuromodulation with deep brain stimulation of the thalamic nucleus ventralis intermedius (Vim DBS) is a well accepted method of neurosurgical treatment of tremor related to essential tremor or Parkinson disease. Vim DBS is not widely used to control MS tremor.Material and methodsFive MS patients with tremor (3 females and 2 males) were treated with Vim DBS. Age at implantation was 37 ± 5 years. MS lasted from 5 to 12 years (mean 6) and tremor was the main cause of disability of those patients from 2 to 5 years (mean 3) before surgery. Clinical condition of the group was evaluated with spirography, the modified Fahn scale and the modified Activity of Daily Living (ADL) scale. Evaluations were performed before surgery and 3 months after surgery. MRI exclusion criteria were the presence of a thalamic hyperintense signal in T2-weighted images or ventricular enlargement. The procedures of implantation were performed under local and general anaesthesia.ResultsIntensity of contralateral limb tremor during intraoperative macrostimulation was reduced in the whole group. The therapeutic effect of DBS was maintained at three-month follow-up. Mean contralateral limb tremor reduction was 40%. Mean ADL score improved by 18%. No mortality or morbidity was reported in the group.ConclusionsThe study confirms the value and safety of Vim DBS for treatment of MS-related tremor. Further study on a larger population and introduction of a qualification protocol might increase efficacy of the treatment.     

Early deep brain stimulation in patients with myoclonus-dystonia syndrome

Myoclonus-dystonia (MD) is a rare movement disorder which is disabling and frequently refractory to medical treatment. Deep brain stimulation (DBS) of the globus pallidus interna (GPi) has been used to treat some patients. Although there is significant motor improvement with DBS, the impact on disability and on quality of life has been infrequently reported. Also, the benefit of the procedure is not established in patients without ε-sarcoglycan gene (SGCE) mutations. We present two patients with severe MD treated with GPi-DBS, one of the patients without a SGCE mutation. Motor improvements (rest/action/total subscores of the Unified Myoclonus Rating Scale and movement subscore of the Burke-Fahn-Marsden Dystonia Rating Scale [BFMRS]) and disability (BFMRS disability subscore) were carefully evaluated preoperatively and at 6 and 12 months after surgery. Quality of life (addressed using the Portuguese version of the Medical Outcomes Study 36-item Short-Form General Health Survey, version 2.0 [SF-36v2]) was tested preoperatively and 12 months after DBS. At 12-month follow-up, myoclonus improved 78.6% in Patient 1 and 80.7% in Patient 2, while dystonia improved 37% and 86.7%, respectively. Improvements in disability ranged from 71.4% to 75%. With regard to quality of life, all parameters addressed by the SF-36v2 improved or stabilized in both patients. No major adverse effects were noticed. Improvements in motor symptoms are consistent with reports in the literature and were obtained regardless of the identification of a SGCE gene mutation. There were also significant benefits on disability and quality of life. DBS should be considered for MD.     

Parkinson's disease: deep brain stimulation

The effects of deep brain stimulation (DBS) of the subthalamic nucleus (STN) or the internal pallidum (GPi) on the parkinsonian triad and on levodopa-induced dyskinesias are very similar. The antiakinetic effect of STN DBS seems to be slightly better. On the contrary to pallidal DBS, stimulation of the STN allows to reduce dopaminergic treatment by more than 50p.100 on average. Moreover, the current drain is smaller in STN. Thus, the STN is a low budget target compared to the GPi. STN DBS seems to be as effective on PD tremor as stimulation of the classic thalamic target, the ventral intermediate nucleus (Vim), whereas Vim stimulation has no effect on akinesia and very little on levodopa-induced dyskinesias. Thus, the STN has become the main target nucleus for DBS in PD, which is most often performed bilaterally in one surgical procedure. There is a good correlation of the preoperative response to levodopa and postoperative effects of bilateral STN DBS and this defines the patient population. Given the large patient population, simple guidelines for patient selection are developed. The referring physician can preselect patients based mainly on age (less than 70), absence of dementia and presence of severe disability related to motor fluctuations or dyskinesias. It is the responsibility of the operating centre to determine the levodopa response, to confirm the diagnosis, to rule out contraindications and to make sure that the medical treatment cannot be further optimised. Severe surgical complications with permanent sequels are relatively rare, about 1p.100 per implanted side. The patient selection, the precision of the surgery and the quality of the postoperative follow-up are the three main determinants of success.     

Parameters for subthalamic deep brain stimulation in patients with dystonia: a systematic review

Journal of Neurology - Deep brain stimulation (DBS) is used for treating dystonia, commonly targeting the subthalamic nucleus (STN). Optimal stimulation parameters are required to achieve...     

Pediatric indications for deep brain stimulation

Purpose

Based on the success of deep brain stimulation (DBS) in the treatment of adult disorders, it is reasonable to assume that the application of DBS in the pediatric population is an emerging area worthy of study. The purpose of this paper is to outline the current movement disorder indications for DBS in the pediatric population, and to describe areas of investigation, including possible medically refractory psychiatric indications.

Methods

We performed a structured review of the English language literature from 1990 to 2011 related to studies of DBS in pediatrics using Medline and PubMed search results.

Results

Twenty-four reports of DBS in the pediatric population were found. Based on published data on the use of DBS for pediatric indications, there is a spectrum of clinical evidence for the use of DBS to treat different disorders. Dystonia, a disease associated with a low rate of remission and significant disability, is routinely treated with DBS and is currently the most promising pediatric application of DBS. We caution the application of DBS to conditions associated with a high remission rate later in adulthood, like obsessive-compulsive disorder and Tourette’s syndrome. Moreover, epilepsy and obesity are currently being investigated as indications for DBS in the adult population; however, both are associated with significant morbidity in pediatrics.

Conclusion

While currently dystonia is the most promising application of DBS in the pediatric population, multiple conditions currently being investigated in adults also afflict children and adolescents, and thus warrant further research.