Two cases of ischemia associated with subthalamic nucleus stimulator implantation for advanced Parkinson's disease.

Deep brain stimulation is generally a safe and effective method of alleviating motor impairment in advanced-stage Parkinson's disease patients. However, adverse events of surgery have been noted, such as hemorrhage, infection, seizures, and device failure. In this report, we describe 2 cases of the unusual adverse event of ischemia associated with subthalamic nucleus stimulator implantation. We present the intraoperative neurological symptoms, microelectrode recording data, imaging findings, and other correlated events. In the first case, the clinical effects of ischemia were evident intraoperatively and coincided with silence during microelectrode recording from the ischemic region. In the second case, the timing of the ischemic event could not be determined precisely but also was associated with a difficult mapping. Subcortical ischemia may be an underrecognized event that confounds neurophysiological mapping of deep brain structures and affects clinical outcomes.     

OFF-off rebound dyskinesia in subthalamic nucleus deep brain stimulation of Parkinson's disease.

A 61-year-old man with Parkinson's disease (PD), motor fluctuations, and dyskinesias underwent bilateral implantation of deep brain stimulation (DBS) electrodes in the subthalamic nucleus (STN). One month after surgery, DBS was optimized to bilateral monopolar settings at the most proximal electrode just superior to the STN, which improved motor fluctuations and dyskinesias. At several postoperative evaluations off medications overnight, both stimulators were turned off and within 60 seconds he developed severe dyskinesias. When the stimulators were turned back on, the dyskinesias soon resolved. This article is a first report of a unique pattern of rebound-type dyskinesia that occurred in the off medication state produced by stopping STN DBS.     

Different effects of unilateral versus bilateral subthalamic nucleus stimulation on walking and reaching in Parkinson's disease.

The purpose of this study was to determine the effects of unilateral versus bilateral subthalamic nucleus (STN) stimulation on quantitative measures of walking and reaching in Parkinson's disease (PD). We used kinematic measures and the Unified Parkinson's Disease Rating Scale (UPDRS) motor subscale (subscale III) to evaluate the movement of 6 people with PD who had bilateral STN stimulators implanted for at least 6 months and withheld their anti-parkinson medication for at least 8 hours. Subjects were studied with both stimulators off, one on, and both on. Kinematic data were collected as subjects walked, reached to a target, and were rated using the UPDRS motor subscale. STN stimulation improved walking speed and stride length, with the greatest benefit from bilateral stimulation. Reaching speed was improved by unilateral STN stimulation alone, with no additive effect of bilateral stimulation. UPDRS motor subscale ratings paralleled the kinematic findings. STN stimulation did not restore PD subjects' movements to the level of age-matched controls. Overall, these results provide further evidence that the basal ganglia pathways involved in control of walking and reaching may be distinct. We speculate that basal ganglia may influence walking through bilateral pedunculopontine projections and reaching through ipsilateral thalamocortical projections. Our findings also suggest that maximal improvement of walking requires bilateral rather than unilateral STN stimulation.     

Postoperative gait deterioration after bilateral subthalamic nucleus stimulation in Parkinson's disease

Deep brain stimulation of the subthalamic nuclei (STN) is a good therapeutic option to reduce dyskinesias and improve appendicular motor signs in well‐selected patients with advanced Parkinson's disease (PD). Concerns about long‐term adverse effects play an increasingly role in the decision whether or not to refer patients for this treatment. Worsening of gait as a consequence of STN stimulation for PD has been described, but may be under‐recognized in clinical practice. The aim of this study was to evaluate the effects of STN stimulation on gait relative to global outcome in a group of consecutively operated patients. For this purpose, we used a standardized patient questionnaire that asked about global outcome and specific effects on gait, as experienced both 6 months postoperatively and currently (at the time of completing the questionnaire; mean: 2.7 +/? 1.1 years). A delayed worsening of gait after bilateral STN stimulation was experienced by a considerable proportion of patients (42% of subjects, for gait in the OFF phase), and this was apparently relatively “selective” because their global outcome scores continued to be improved. These findings highlight the presence of a hitherto poorly recognized long‐term complication of bilateral STN stimulation. Further systematic studies are required to pinpoint the clinical and surgical determinants of this late gait deterioration. © 2008 Movement Disorder Society     

Mortality in patients with Parkinson's disease treated by stimulation of the subthalamic nucleus.

Subthalamic nucleus (STN) stimulation improves motor disability and quality of life in patients with advanced Parkinson's disease (PD). Short-term mortality is low, but little is known about long-term mortality. We assessed mortality and causes of death in 171 consecutive PD patients treated by STN stimulation. Surgery was performed after a median lagtime of 13 years from PD onset at a median age of 57 years. The median follow-up after surgery was 41 months. Sixteen patients died 8 to 83 months after neurosurgery. Poorer cognitive function was the only predictive factor for mortality (standardized mortality ratio = 2.9; 95% confidence interval [CI], 1.6-4.7; P < 0.0001). Based on a historical comparison of 118 operated patients with 39 nonoperated patients from a different population, survival among operated patients was not better (hazard ratio = 1.2; 95% CI, 0.7-2.1).     

Evolution of Parkinson's disease during 4 years of bilateral deep brain stimulation of the subthalamic nucleus.

Patients with advanced Parkinson's disease (PD) and motor complications can obtain significant symptom improvement by deep brain stimulation (DBS) of the subthalamic nucleus (STN). Very little is published, however, about long-term effect and disease evolution during DBS. We performed a 4-year prospective study of the first 22 consecutive patients treated with STN DBS. The patients were evaluated with Unified Parkinson's Disease Rating Scale Part II to VI and a patient diary concerning on-off periods and dyskinesia. Patients were scored before surgery on medication and off medication for 10 to 12 hours and in four conditions 1 and 4 years after surgery: off medication+/-stimulation and on medication+/-stimulation. In advanced PD, a significant reduction of dyskinesia and off periods was present 4 years (90%/67%) after the operation. Total motor function on stimulation alone improved 55% at 4 years, compared with baseline and activities of daily living (42%). On stimulation, significant worsening of axial symptoms and speech was present from 1 to 4 years. To evaluate disease evolution, motor symptoms were assessed off stimulation and medication for 12 hours and were found not to worsen compared with baseline, which is remarkable in an otherwise progressive disorder. Five patients developed dementia. Severe adverse events were not observed.     

Deep brain stimulation of the subthalamic nucleus improves pain in Parkinson's disease

BackgroundIn Parkinson's disease (PD), chronic pain is a common symptom which markedly affects the quality of life. Some physiological arguments proposed that Deep Brain Stimulation of the Subthalamic Nucleus (STN-DBS) could improve pain in PD.MethodsWe investigated in 58 PD patients the effect of STN-DBS on pain using the short McGill Pain Questionnaire and other pain parameters such as the Bodily discomfort subscore of the Parkinson's disease Questionnaire 39 and the Unified Parkinson's Disease Rating Scale section II (UPDRS II) item 17.ResultsAll pain scores were significantly improved 12 months after STN-DBS. This improvement was not correlated with motor improvement, depression scores or l-Dopa reduction.ConclusionsSTN-DBS induced a substantial beneficial effect on pain in PD, independently of its motor effects and mood status of patients.     

A cost analysis of intraoperative microelectrode recording during subthalamic stimulation for Parkinson's disease

Deep brain stimulation of the subthalamic nucleus is the standard of care for treating medically intractable Parkinson's disease. Although the adjunct of microelectrode recording improves the targeting accuracy of subthalamic nucleus deep brain stimulation in comparison with image guidance alone, there has been no investigation of the financial cost of intraoperative microelectrode recording. This study was performed to address this issue. A comprehensive literature search of large subthalamic nucleus deep brain stimulation series (minimum, 75 patients) was performed, revealing a mean operating room time of 223.83 minutes for unilateral and 279.79 minutes for simultaneous bilateral implantation. The baseline operating room time was derived from the published operating room time for subthalamic nucleus deep brain stimulation without microelectrode recording. The total cost (operating room, anesthesia, neurosurgery) was then calculated based on hospitals geographically representative of the entire United States. The average cost for subthalamic nucleus deep brain stimulation implantation with microelectrode recording per patient is $26,764.79 for unilateral, $33,481.43 for simultaneous bilateral, and $53,529.58 for staged bilateral. For unilateral implantation, the cost of microelectrode recording is $19,461.75, increasing the total cost by 267%. For simultaneous bilateral implantation, microelectrode recording costs $20,535.98, increasing the total cost by 159%. For staged bilateral implantation, microelectrode recording costs $38,923.49, increasing the total cost by 267%. Microelectrode recording more than doubles the cost of subthalamic nucleus deep brain stimulation for Parkinson's disease and more than triples the cost for unilateral and staged bilateral procedures. The cost burden of microelectrode recording to subthalamic nucleus deep brain stimulation requires the clinical efficacy of microelectrode recording to be proven in a prospective evidence‐based manner in order to curtail the potential for excessive financial burden to the health care system. © 2011 Movement Disorder Society     

Lower urinary tract symptoms and bladder control in advanced Parkinson's disease: effects of deep brain stimulation in the subthalamic nucleus.

Deep brain stimulation in the subthalamic nucleus (STN) leads to significant improvement in motor function in patients with advanced Parkinson's disease (PD). In this prospective study including 16 patients with PD, we investigated (1) lower urinary tract symptoms (LUTS) by questionnaires International Prostate Symptom Score (IPSS, symptoms only) and Danish Prostate Symptom Score (DanPSS, symptoms and bother of symptoms) and (2) bladder control (assessed by urodynamics) before and after implantation of electrodes in the STN. PD symptoms (Unified Parkinson's Disease Rating Scale score) improved significantly (P < 0.0001), and symptoms of overactive bladder (IPSS) decreased along with the troublesome symptoms of overactive bladder (DanPSS; P < 0.01 for both). Urodynamic parameters before and after implantation of electrodes in the STN, evaluated with and without the stimulation on, did not change significantly.     

High‐frequency stimulation of the subthalamic nucleus modulates neuronal activity in the lateral habenula nucleus

High‐frequency stimulation (HFS) of the subthalamic nucleus (STN) is often used to treat movement disability in advanced Parkinson's disease, but some patients experience debilitating psychiatric effects including depression. Interestingly, HFS of the STN modulates 5‐HT neurons in the dorsal raphe nucleus (DRN) which are linked to depression, but the neural substrate of this effect is unknown. Here, we tested the effect of STN stimulation on neuronal activity in the lateral habenula nucleus (LHb), an important source of input to DRN 5‐HT neurons and also a key controller of emotive behaviours. LHb neurons were monitored in anaesthetized rats using single‐unit extracellular recording, and localization within the LHb was confirmed by juxtacellular labelling. HFS of the STN (130 Hz) evoked rapid changes in the firing rate of the majority of LHb neurons tested (38 of 68). Some LHb neurons (19/68) were activated by HFS, while others (19/68), distinguished by a higher basal firing rate, were inhibited. LHb neurons that project to the DRN were identified using antidromic activation and collision testing (n = 17 neurons). Some of these neurons (5/17) were also excited by HFS of the STN, and others (7/17) were inhibited although this was only a statistical trend. In summary, HFS of the STN modulated the firing of LHb neurons, including those projecting to the DRN. The data identify that the STN impacts on the LHb‐DRN pathway. Moreover, this pathway may be part of the circuitry mediating the psychiatric effects of STN stimulation experienced by patients with Parkinson's disease.     

Pathological gambling in Parkinson's disease improves on chronic subthalamic nucleus stimulation.

Pathological gambling (PG) related to dopaminergic treatment in Parkinson's disease (PD) is part of a spectrum of behavioral disorders called the dopamine dysregulation syndrome (DDS). We describe a series of PD patients with preoperative active PG due to dopaminergic treatment from a total of 598 patients who have undergone surgery for subthalamic nucleus stimulation for disabling motor fluctuations. The patients had systematic open assessment of behavioral symptoms and standardized assessments of motor symptoms, mood, and apathy. Seven patients (6 men, 1 woman; age, 54 +/- 9 years; levodopa equivalent dose, 1,390 +/- 350 mg/day) had preoperative PG over a mean of 7 years, intolerant to reduction in medication. Six had nonmotor fluctuations and four had other behavioral symptoms consistent with a diagnosis of the DDS. After surgery, motor symptoms improved, allowing for 74% reduction of dopaminergic treatment, below the dosage of gambling onset. In all patients, PG resolved postoperatively after 18 months on average (range, 0-48), although transient worsening occurred in two. Improvement paralleled the time course and degree of reduction in dopaminergic treatment. Nonmotor fluctuations, off period dysphoria, and other symptoms of the DDS improved. Two patients developed persistent apathy. In conclusion, PG and other symptoms of the DDS-associated dopaminergic treatment improved in our patients following surgery. Dopaminergic dysregulation commonly attributed to pulsatile overstimulation of the limbic dopaminergic system may be subject to desensitization on chronic subthalamic stimulation, which has a relative motor selectivity and allows for decrease in dopaminergic treatment.     

Effects of subthalamic nucleus stimulation on characteristics of EMG activity underlying reaction time in Parkinson's disease.

We examined the effects of high-frequency deep brain stimulation of the subthalamic nucleus (STN-DBS) on characteristics of electromyographic (EMG) activity of the agonist muscle in 8 patients with Parkinson's disease (PD). Patients were examined during STN-DBS (ON), and 30 minutes after switching off both stimulators (OFF). They were asked to make a ballistic movement in paradigms of simple reaction time (SRT) and choice reaction time (CRT) tasks. Onset of movement (MOVonset) was measured as the latency of the initial displacement from baseline of the signal from an accelerometer attached to the dorsum of the hand. In the associated EMG activity, recorded from wrist extensor muscles, we measured onset latency (EMGonset), size of the first EMG burst (EMGsize), and number of EMG bursts (EMGbursts) counted between EMGonset and task execution. MOVonset and EMGonset were significantly shorter in ON than in OFF conditions in CRT. EMGsize was larger, EMGbursts were reduced, and peak of the acceleration profile was larger in ON compared with OFF conditions in both SRT and CRT. Our results indicate that STN-DBS induces a significant improvement in motor performance of reaction time tasks in PD patients. Such improvement is associated with a change in features of the EMG activity suggesting an increase in the excitability of the motor pathways engaged in ballistic movements.     

The subthalamic nucleus,oscillations, and conflict

The subthalamic nucleus (STN), which is currently the most common target for deep brain stimulation (DBS) for Parkinson's disease (PD), has received increased attention over the past few years for the roles it may play in functions beyond simple motor control. In this article, we highlight several of the theoretical, interventional, and electrophysiological studies that have implicated the STN in response inhibition. Most influential among this evidence has been the reported effect of STN DBS in increasing impulsive responses in the laboratory setting. Yet, how this relates to pathological impulsivity in patients' everyday lives remains uncertain. © 2015 International Parkinson and Movement Disorder Society     

Long-term effects of bilateral subthalamic nucleus stimulation on health-related quality of life in advanced Parkinson's disease.

We evaluated the long-term effects of subthalamic nucleus (STN) stimulation on health-related quality of life (HRQL) in patients with advanced Parkinson's disease (PD). STN stimulation improves motor function and decreases medication requirements in patients with advanced PD. The impact of STN stimulation on HRQL is less well established, especially beyond 1 year after surgery. We report HRQL outcomes for 18 patients with advanced PD. Patients were evaluated with the Parkinson's Disease Questionnaire-39 (PDQ-39), the Medical Outcome Study Short Form (SF-36), and the EuroQol visual analogue scale (VAS) before surgery, 6 months postoperatively, and at a long-term follow-up visit (mean, 35.9 months; range, 18-57 months after surgery). Preoperative scores on HRQL measures were compared to results obtained at short- and long-term follow-up evaluations. The VAS and all domains of the PDQ-39 except for cognition, communication, and social support showed marked improvements at 6 months after surgery. At the long-term follow-up, there were sustained improvements in the VAS (63% improvement; P = 0.0009) and in several domains of the PDQ-39 [mobility: 20%, P = 0.01; activities of daily living (ADL): 29%, P = 0.005; emotional well-being: 26%, P = 0.02; stigma: 43%, P = 0.003; and bodily discomfort: 35%, P = 0.007]. At the long-term evaluation, only the vitality domain of the SF-36 was significantly improved from baseline (16%; P = 0.01). In this selected group of patients, many of the short-term gains in HRQL persist beyond 18 months after STN implantation. Benefits in nonmotor aspects of HRQL such as bodily discomfort and stigma appear to be among the most durable.     

Contrast sensitivity in Parkinson's disease patients with subthalamic nucleus deep brain stimulation

This study examined whether deep brain stimulation (DBS) would affect the contrast sensitivity (CS) curve in patients with PD. CS was tested in 12 nondemented PD patients treated with bilateral subthalamic nucleus DBS on and off stimulation and medications. Neither stimulation condition (on vs. off) nor medications altered CS performance in this group of patients. However, collapsed across conditions, patients with bipolar stimulation in this study had significantly poorer CS at higher spatial frequencies (12 and 18 cycles per degree) than patients with monopolar stimulation. This suggests that CS deficits in PD may possibly be influenced by DBS polarity and merits further study. © 2009 Movement Disorder Society     

Improvement of sleep quality in patients with advanced Parkinson's disease treated with deep brain stimulation of the subthalamic nucleus.

Most Parkinson's patients complain about sleep problems. The subjective effect of deep brain stimulation (DBS) of the subthalamic nucleus (STN) on nocturnal disabilities and sleep quality was elucidated by the recently established Parkinson's disease sleep scale (PDSS). The DBS-treated group obtained significant improvement of motor function assessed by the Unified Parkinson's Disease Rating Scale. The mean total PDSS improved significantly after surgery whereas no change was found for the control group. Significant improvements of individual questions were obtained for overall sleep quality and motor symptoms whereas nocturia and daytime sleepiness did not change despite significant reduction of parkinsonian medication.