Bilateral subthalamic nucleus stimulation in advanced Parkinson’s disease

Objective To assess the long-term efficacy and safety of chronic bilateral stimulation of the subthalamic nucleus (STN) in patients with advanced Parkinson’s disease (PD). Methods 36 consecutive patients with idiopathic Parkinson’s disease treated with bilateral stimulation of the STN were studied. Parkinsonian status was assessed preoperatively and at 1 and 3 years postoperatively using the Unified Parkinson’s Disease Rating Scale (UPDRS) and neuropsychological evaluation in on and off-medication / on and off stimulation conditions. Results At 3 years follow-up, STN stimulation reduced the UPDRS motor score by 54.2 % compared to baseline in the off-medication conditions. Tremor, rigidity, bradykinesia, postural stability, and gait improved by 72.2 %, 62.4 %, 56.8 %, 40.5 % and 45.3 %, respectively. UPDRS part II scores were reduced by 41.4 %. The overall dopaminergic drugs dose was reduced by 48.6 % after surgery and four patients were no longer taking antiparkinsonian medication at three years. However, axial dopa-unresponsive signs worsened in some patients. The most frequent transient adverse event consisted in mood disorders in 23 patients. Conclusions Our data demonstrate that: 1) bilateral STN stimulation is relatively safe, improves the motor symptoms and drug-related motor complications of PD, and reduces the daily dosage of medication; 2) this benefit is sustained over time despite the occurrence of axial doparesistant signs in some patients.     

Transient gender-related effects in Parkinson’s disease patients with subthalamic stimulation

Little is known about the gender-related long-term efficacy and safety after subthalamic nucleus deep brain stimulation (STN DBS) implant for Parkinson’s disease (PD), although some differences could be expected as recently stated in a short-term report. We assessed the possible gender-related differences in clinical outcome and disease progression along a 5-year period after STN DBS for PD. A prospective cohort of PD patients who underwent STN DBS and reached the 5-year follow-up (FU) was considered. Clinical outcome, disease progression and side effects were assessed at baseline and 1, 3, and 5 years after surgery. Eleven men and nine women were included in the study. At baseline, no inter-gender difference of age at implant, disease duration and severity or levodopa responsiveness was detected. A higher motor responsiveness in men compared to women was detected only at 1-year FU: this difference was mainly related to worse lower limb akinesia and gait score in women. The difference was not confirmed at 3 and 5 years. Antiparkinsonian drugs reduction, improvement in motor fluctuations and dyskinesias, functional measures and progression of underlying PD, were comparable in both groups. Women had persistent adverse events comparable to men. The present long-term observation confirms the occurrence of slight gender-related differences in PD patients treated with STN DBS, indicating a transient poorer outcome in women. Further observational time and a wider number of patients are needed to better analyze the dimension of long-term gender-related differences.     

Olfactory function in patients with idiopathic Parkinson’s disease: effects of deep brain stimulation in the subthalamic nucleus

Summary. Decrease of olfactory function in patients with Parkinsons disease (PD) is a well-investigated fact. The present study aimed to investigate olfaction in PD patients with a specific focus on the effects of deep brain stimulation in the subthalamic nucleus. Eleven patients (age 42–67 years) participated in this study. Using the Sniffin Sticks, olfactory function was assessed based on butanol odor thresholds and the patients ability to discriminate odors. Measures were taken with the stimulator being switched ON and OFF, respectively. While deep brain stimulation had no effect on odor thresholds, in hyposmic PD patients odor discrimination was found to be significantly higher during the ON period. This may indicate that deep brain stimulation has a positive effect on the cognitive processing of olfactory information in PD patients.     

Influence of deep brain stimulation of the subthalamic nucleus on cognitive function in patients with Parkinson’s disease

Deep brain stimulation (DBS) is an effective technique for treating Parkinson’s disease (PD) in the middle and advanced stages. The subthalamic nucleus (STN) is the most common target for clinical treatment using DBS. While STN-DBS can significantly improve motor symptoms in PD patients, adverse cognitive effects have also been reported. The specific effects of STN-DBS on cognitive function and the related mechanisms remain unclear. Thus, it is imperative to identify the influence of STN-DBS on cognition and investigate the potential mechanisms to provide a clearer view of the various cognitive sequelae in PD patients. For this review, a literature search was performed using the following inclusion criteria: (1) at least 10 patients followed for a mean of at least 6 months after surgery since the year 2006; (2) pre- and postoperative cognitive data using at least one standardized neuropsychological scale; and (3) adequate reporting of study results using means and standard deviations. Of ～170 clinical studies identified, 25 cohort studies (including 15 self-controlled studies, nine intergroup controlled studies, and one multi-center, randomized control experiment) and one metaanalysis were eligible for inclusion. The results suggest that the precise mechanism of the changes in cognitive function after STN-DBS remains obscure, but STN-DBS certainly has effects on cognition. In particular, a progressive decrease in verbal fluency after STN-DBS is consistently reported and although executive function is unchanged in the intermediate stage postoperatively, it tends to decline in the early and later stages. However, these changes do not affect the improvements in quality of life. STN-DBS seems to be safe with respect to cognitive effects in carefully-selected patients during a follow-up period from 6 months to 9 years.     

Long term follow-up in advanced Parkinson’s disease treated with DBS of the subthalamic nucleus

Journal of Neurology - Parkinson’s disease (PD) is the second most common neurodegenerative disorder, affecting both motor and non-motor systems. Deep brain stimulation of the subthalamic...     

Functional neuronal activity and connectivity within the subthalamic nucleus in Parkinson’s disease

ObjectiveCharacterization of the functional neuronal activity and connectivity within the subthalamic nucleus (STN) in patients with Parkinson’s disease (PD).MethodsSingle units were extracted from micro-electrode recording (MER) of 18 PD patients who underwent STN deep brain stimulation (DBS) surgery. The firing rate and pattern of simultaneously recorded spike trains and their coherence were analyzed. To provide a precise functional assignment of position to the observed activities, for each patient we mapped its classified multichannel STN MERs to a generic atlas representation with a sensorimotor part and a remaining part.ResultsWithin the sensorimotor part we found significantly higher mean firing rate (P < 0.05) and significantly more burst-like activity (P < 0.05) than within the remaining part. The proportion of significant coherence in the beta band (13–30 Hz) is significantly higher in the sensorimotor part of the STN than elsewhere (P =  0.015).ConclusionsThe STN sensorimotor part distinguishes itself from the remaining part with respect to beta coherence, firing rate and burst-like activity and postoperatively was found as the preferred target area.SignificanceOur firing behavior analysis may help to discriminate the STN sensorimotor part for the placement of the DBS electrode.     

Long-term follow-up of subthalamic nucleus stimulation in glucocerebrosidase-associated Parkinson’s disease

Journal of Neurology -     

Does subthalamic nucleus stimulation induce apathy in Parkinson’s disease?

Background Subthalamic Nucleus Deep Brain Stimulation (STN-DBS) has been shown to significantly improve motor symptoms in advanced Parkinson’s disease (PD). Only few studies, however, have focused on the non-motor effects of DBS. Methods A consecutive series of 15 patients was assessed three months before (M-3), then three months (M3) and six months (M6) after surgery. Mean (± SD) age at surgery was 59.7 (7.6). Mean disease duration at surgery was 12.2 (2.8) years. The Mini International Neuropsychiatric Inventory was used to assess psychiatric disorders three months before surgery. Depression was evaluated using Montgomery and Asberg Rating Scale (MADRS). Anxiety was evaluated using the AMDP system (Association for Methodology and Documentation in Psychiatry). Apathy was particularly evaluated using the Apathy Evaluation Scale (AES) and the Starkstein Scale. All these scales were performed at every evaluation. Results Apathy worsened at M3 and M6 after STN-DBS in comparison with the preoperative evaluation: the AES mean score was significantly impaired between the preoperative (38.4±7.1) and both the postoperative M3 (44.6±9.5, p = 0.003) and M6 scores (46.0±10.9, p = 0.013). Significant worsening of apathy was confirmed using the Starkstein scale. There was no evidence of depression: the mean MADRS score did not differ before surgery (9.1±7.4) and at both M3 (8.6±8.2) and M6 (9.9±7.7) after STN-DBS. The anxiety level did not change between preoperative (9.4±9.2) and both M3 (5.5±4.5) and M6 (6.6±4.6) postoperative states. Conclusion Although STN-DBS constitutes a therapeutic advance for severely disabled patients with Parkinson’s disease, we should keep in mind that this surgical procedure may contribute to the inducing of apathy. Our observation raises the issue of the direct influence of STN- DBS on the limbic system by diffusion of stimulus to the medial limbic compartment of STN.     

The effects of bilateral stimulation of the subthalamic nucleus on heart rate variability in patients with Parkinson’s disease

The beneficial effects of subthalamic nucleus deep brain stimulation (STN-DBS) on motor symptoms and quality of life in Parkinson’s disease (PD) are well known, but little is known of the effects on autonomic function. Diffusion of current during stimulation of the STN may simultaneously involve the motor and nonmotor, limbic and associative areas of the STN. The aims of this study were to examine whether STN stimulation affects functions of the autonomic nervous system and, if so, to correlate the effects with the active contacts of electrodes in the STN. Eight PD patients with good motor control and quality of sleep after STN-DBS surgery were recruited. All patients had two days of recordings with portable polysomnography (PSG) (first night with stimulation “on” and second night “off”). From the PSG data, the first sleep cycle of each recording night was defined. Heart rate variability (HRV) was analyzed between the same uninterrupted periods of the two sleep nights. In addition, the optimal electrode positions were defined from postoperative MRI studies, and the coordinates of active contacts were confirmed. HRV spectral analysis showed that only low-frequency (LF)/high-frequency (HF) power was significantly activated in the stimulation “on” groups (P = 0.011). There was a significant negative correlation between power change of LF/HF and electrode position lateral to the midcommissural point (ρ = 0.857, P = 0.007) These results demonstrate that STN-DBS can enhance sympathetic regulation; the autonomic response may be due to electrical signals being distributed to limbic components of the STN or descending sympathetic pathways in the zona incerta.     

Continuous deep brain stimulation of the subthalamic nucleus may not modulate beta bursts in patients with Parkinson’s disease

BackgroundNeural oscillations represent synchronous neuronal activation and are ubiquitous throughout the brain. Oscillatory activity often includes brief high-amplitude bursts in addition to background oscillations, and burst activity may predict performance on working memory, motor, and comprehension tasks.ObjectiveWe evaluated beta burst activity as a possible biomarker for motor symptoms in Parkinson’s disease (PD). The relationship between beta amplitude dynamics and motor symptoms is critical for adaptive DBS for treatment of PD.MethodsWe applied threshold-based and support vector machine (SVM) analyses of burst parameters to a defined on/off oscillator and to intraoperative recordings of local field potentials from the subthalamic nucleus of 16 awake patients with PD.ResultsFiltering and time-frequency analysis techniques critically influenced the accuracy of identifying burst activity. Threshold-based analysis lead to biased results in the presence of changes in long-term beta amplitude and accurate quantification of bursts with thresholds required unknowable a priori knowledge of the time in bursts. We therefore implemented an SVM analysis, and we did not observe changes in burst fraction, rate, or duration with the application of cDBS in the participant data, even though SVM analysis was able to correctly identify bursts of the defined on/off oscillator.ConclusionOur results suggest that cDBS of the STN may not change beta burst activity. Additionally, threshold-based analysis can bias the fraction of time spent in bursts. Improved analysis strategies for continuous and adaptive DBS may achieve improved symptom control and reduce side-effects.     

Five-year follow-up of 23 asymmetrical Parkinson’s disease patients treated with unilateral subthalamic nucleus stimulation

In this study, 23 asymmetrical Parkinson’s disease patients were treated with unilateral deep brain stimulation of the subthalamic nucleus and followed up for 5 years. At 5 years after stimulation treatment, Unified Parkinson’s Disease Rating Scale II, III and axial symptom scores in the off-drug condition were significantly increased compared those at baseline. However, total Unified Parkinson’s Disease Rating Scale II, III and axial symptom scores were significantly lower with stimulation-on compared with the synchronous stimulation-off state in off-drug condition, and the motor symptoms of contralateral side limbs were effectively controlled. Only low Hoehn-Yahr stage was correlated with good long-term postoperative improvement in motor symptoms. The mean levodopa-equivalent daily dose after stimulation treatment was significantly lower than that before treatment, but dyskinesias became worse. Our experimental findings indicate that unilateral deep brain stimulation of the subthalamic nucleus is an effective treatment for improving motor symptoms in well selected asymmetrical Parkinson’s disease patients presenting no severe axial symptoms and dyskinesias.     

Lack of differential motor outcome with subthalamic nucleus region stimulation in Parkinson’s disease

Deep brain stimulation (DBS) has emerged as a viable therapy for Parkinson’s disease (PD). The impact of subthalamic nucleus (STN) lead placement (lateral versus medial) on motor outcome, however, has not been systematically evaluated. Forty-eight patients with PD underwent STN-DBS surgery and were evaluated postoperatively for 48 weeks for motor improvement as measured by the Unified Parkinson’s Disease Rating Scale (UPDRS) part III (standardized motor examination) and levodopa equivalent daily dose (LEDD). Postoperative MRI was used to identify the location of the active stimulating contact and motor outcome was analyzed. STN-DBS was associated with significant improvement in motor outcome as determined by a reduction in the UPDRS part III subscore from 34.44 ± 1.29 at baseline to 18.76 ± 1.06 at end visit (p < 0.0001) and a reduction in LEDD from 1721 ± 152 mg/day at baseline to 1134 ± 119 mg/day at end visit (p = 0.0024). Patients with stimulating contacts in the medial STN compared to the lateral STN did not demonstrate any significant differences in motor outcome (UPDRS, p = 0.5811; LEDD, p = 0.7341). No significant differences were found in motor outcome between patients with STN stimulation compared to stimulation of surrounding fiber tracts (p = 0.80). No significant difference in stimulation voltage was noted with respect to lead location. Our study did not find a significant effect for the location of active contact and motor outcome neither within the subregions of the STN nor between the STN and surrounding fibers. Further research is needed to better understand the neurophysiological basis for these results.     

Heatstroke in patients with Parkinson’s disease

We present two Parkinson's disease (PD) patients, who experienced heatstroke. Both patients manifested central nervous system dysfunction with elevated core temperature. Despite adequate lowering of the body temperature, multiorgan-dysfunction syndrome including encephalopathy, rhabdomyolysis, acute renal failure, acute respiratory failure, and disseminated intravascular coagulopathy was noted in one patient, leading to permanent neurologic damage. Because the ensuing multiorgan dysfunction could determine the functional prognosis in heatstroke patients, it is important to provide information about the prevention of heatstroke to patients, who are isolated or are severely disabled in the advanced stages of PD.     

Apathy in patients with Parkinson’s disease

Apathy is a common feature of basal ganglia disorders such as Parkinson's disease (PD), yet it is often 'invisible' to the clinician, patient and family. Factors responsible for the lack of recognition of apathy include confusion between the presence of depression and apathy and the overlap of symptoms of apathy with the phenomenology of PD. Raising awareness of apathy in PD is important because apathy contributes to PD-related disability and has an important impact on quality of life. The neurotransmitter dopamine is central to normal motivational behavior. Therefore, PD, a disorder of primary dopamine deficiency, is an ideal model for the study of apathy and its management.     

Neuropsychological and psychiatric assessments following bilateral deep brain stimulation of the subthalamic nucleus in Japanese patients with Parkinson’s disease

The physical benefits of subthalamic nucleus deep brain stimulation (STN-DBS) in Parkinson’s disease (PD) patients are well documented, but the mental benefits are uncertain, particularly in Japanese patients. This study evaluated the clinical and neuropsychological characteristics before and after STN-DBS surgery in Japanese PD patients. PD patients (n = 13, age 67.0 ± 7.8 years) were evaluated pre-surgery (baseline) and at 1 and 6 months post-surgery by two trained psychiatrists. The motor symptoms were assessed by the Unified Parkinson’s Disease Rating Scale (UPDRS) motor score. The neuropsychological and psychiatric tests performed were the Mini-Mental State Examination, the Wisconsin Card Sorting Test (WCST), the Verbal Fluency Test (VFT), the Hamilton Depression Rating Scale and the Hamilton Anxiety Rating Scale (HAM-A). The UPDRS motor score (p < 0.001) and HAM-A score (p = 0.004) showed significant improvement at 1 month post-surgery, but a significant decline was observed in the WCST total error (p = 0.005) and the semantic VFT score (p < 0.001). The phonetic VFT also showed a substantial decline (p = 0.015) at 1 month post-surgery. At 6 months post-surgery, the improvement in the UPDRS motor score was maintained, and the scores on the neuropsychological and psychiatric tests had returned to baseline. Although bilateral STN-DBS did not appear to have long-term effects on neuropsychological and psychiatric outcomes, the microlesion effects associated with STN-DBS appear to increase the risk of transient cognitive and psychiatric complications. These complications should be monitored by careful observation of neurological and psychiatric symptoms.     

Effects of subthalamic nucleus stimulation on striatal dopaminergic transmission in patients with Parkinson’s disease within one-year follow-up

The mechanisms by which deep brain stimulation (DBS) of the subthalamic nucleus (STN) leads to clinical benefit in Parkinson's disease (PD), especially with regard to dopaminergic transmission, remain unclear. Therefore, the objective of our study was to evaluate alterations of synaptic dopaminergic signaling following bilateral STN-DBS in advanced PD within a one-year follow-up. We used [(123)I]FP-CIT single-photon emission computed tomography (SPECT) to measure dopamine transporter (DAT) availability and [(123)I]IBZM SPECT to assess dopamine D(2) receptor (D2R) availability (stimulator ON condition).Patients (n=18) showed a tendency towards a better suppression of symptoms after STN-DBS (Unified Parkinson's Disease Rating Scale motor score with medication decreased from 24.1+/-16.1 to 15.4+/-7.45; p=0. 002) while medication was strongly reduced (61% reduction of levodopa equivalent units; p<0. 0001). No changes of striatal [(123)I]FP-CIT binding and an increase of [(123)I]IBZM binding up to 16% (p<0. 05) between pre-surgery and follow-up investigations were noticed. These data show that clinical improvement and reduction of dopaminergic drugs in patients with advanced PD undergoing bilateral STN-DBS are paralleled by stable DAT and recovery of striatal D2R availability 12 months after surgery.     

Thalamic,subthalamic nucleus and internal pallidum stimulation in Parkinson’s disease

The limits of drug therapy in severe forms of Parkinson’s disease have lead to a renewal of functional neurosurgery of the basal ganglia and the thalamus. Deep brain stimulation (DBS) of these structures was developed with the aims of reducing the morbidity of surgery and of offering an adaptative treatment. DBS was first applied to the thalamus in patients with severe tremor. Tremor of the hemibody is greatly reduced by stimulation of the contralateral electrode in 85% of the cases. There is little change in other symptoms. However, motor fluctuations and dyskinesias are a more frequent problem than severe tremor, in attempt to treat these symptoms, DBS has recently been applied to the subthalamic nucleus (STN) and the internal pallidum (GPi). STN stimulation greatly decreases off motor symptoms and motor fluctuations, which allows a reduction of drug dosage and consequently of dyskinesias. GPi stimulation decreases dyskinesias in most patients, but the effect on off motor symptoms is more variable from one series to another, from very good to nil. The severe morbidity of DBS applied to these 3 targets is low. Comparative studies of the cost and the efficacy of DBS and lesions applied to these different targets are now required.

     

Influence of deep brain stimulation of the subthalamic nucleus on cognitive function in patients with Parkinson＇s disease

Deep brain stimulation （DBS） is an effective technique for treating Parkinson＇s disease （PD） in the middle and advanced stages. The subthalamic nucleus （STN） is the most common target for clinical treatment using DBS. While STN-DBS can significantly improve motor symptoms in PD patients, adverse cognitive effects have also been reported. The specific effects of STN-DBS on cognitive function and the related mechanisms remain unclear. Thus, it is imperative to identify the influence of STN-DBS on cognition and investigate the potential mechanisms to provide a clearer view of the various cognitive sequelae in PD patients. For this review, a literature search was performed using the following inclusion criteria： （1） at least 10 patients followed for a mean of at least 6 months after surgery since the year 2006; （2） pre- and postoperative cognitive data using at least one standardized neuropsychological scale; and （3） adequate reporting of study results using means and standard deviations. Of -170 clinical studies identified, 25 cohort studies （including 15 self-controlled studies, nine intergroup controlled studies, and one multi-center, randomized control experiment） and one meta- analysis were eligible for inclusion. The results suggest that the precise mechanism of the changes in cognitive function after STN-DBS remains obscure, but STN-DBS certainly has effects on cognition. In particular, a progressive decrease in verbal fluency after STN-DBS is consistently reported and although executive function is unchanged in the intermediate stage postoperatively, it tends to decline in the early and later stages. However, these changes do not affect the improvements in quality of life. STN-DBS seems to be safe with respect to cognitive effects in carefully-selected patients during a follow-up period from 6 months to 9 years.