Linda Ackermans

Deep Brain Stimulation in Tourette's Syndrome: Two Targets?

In this report, we describe the effects of bilateral thalamic stimulation in one patient and of bilateral pallidal stimulation in another patient. Both patients suffered from intractable Tourette’s syndrome (TS). Any conservative treatment had failed or had been stopped because of unbearable side effects in the 2 patients. In both cases, there was no comorbidity except for associated behavioral symptoms (compulsions). Electrodes were implanted at the level of the medial part of the thalamus (centromedian nucleus, the substantia periventricularis, and the nucleus ventro‐oralis internus) in one patient and in the posteroventral part of the globus pallidus internus (GPi) in the other patient. In both cases, deep brain stimulation (DBS) resulted in a substantial reduction of tics and compulsions. These data show that bilateral DBS of the thalamus as well as of the GPi can have a good effect on tics and behavioral symptoms in patients suffering from intractable TS.

Tourette syndrome deep brain stimulation: A review and updated recommendations

Deep brain stimulation (DBS) may improve disabling tics in severely affected medication and behaviorally resistant Tourette syndrome (TS). Here we review all reported cases of TS DBS and provide updated recommendations for selection, assessment, and management of potential TS DBS cases based on the literature and implantation experience. Candidates should have a Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition (DSM V) diagnosis of TS with severe motor and vocal tics, which despite exhaustive medical and behavioral treatment trials result in significant impairment. Deep brain stimulation should be offered to patients only by experienced DBS centers after evaluation by a multidisciplinary team. Rigorous preoperative and postoperative outcome measures of tics and associated comorbidities should be used. Tics and comorbid neuropsychiatric conditions should be optimally treated per current expert standards, and tics should be the major cause of disability. Psychogenic tics, embellishment, and malingering should be recognized and addressed. We have removed the previously suggested 25‐year‐old age limit, with the specification that a multidisciplinary team approach for screening is employed. A local ethics committee or institutional review board should be consulted for consideration of cases involving persons younger than 18 years of age, as well as in cases with urgent indications. Tourette syndrome patients represent a unique and complex population, and studies reveal a higher risk for post‐DBS complications. Successes and failures have been reported for multiple brain targets; however, the optimal surgical approach remains unknown. Tourette syndrome DBS, though still evolving, is a promising approach for a subset of medication refractory and severely affected patients.

Deep Brain Stimulation in Tourette’s Syndrome

SummaryTourette’s Syndrome (TS) is a neuropsychiatric disorder characterized by motor and vocal tics, often associated with behavioral disorders. Symptoms often disappear before or during adulthood. The pathophysiology of TS is still a matter of considerable debate. Current knowledge of cortico—basal ganglia—thalamocortical circuits provide explanations for the beneficial effects of deep brain stimulation (DBS) on tics. When conservative treatment fails in patients with severe TS, DBS may be a therapeutic option. In 1999, thalamic DBS was introduced for intractable TS. Since then, multiple targets have been used in a small number of patients, including the globus pallidus pars interna and the nucleus accumbens. Inclusion and exclusion criteria have been formulated to identify good candidates for DBS.

Management of hardware infections following deep brain stimulation

SummaryObjective. To report our experience on hardware-related infections following deep brain stimulation (DBS). Methods. The present article presents the retrospective clinical notes review of gained in a two-centre, single-surgeon study experience of 108 consecutive DBS cases between 1996 and 2002. In all patients the minimum follow-up was six months. One hundred and eight patients received an intracerebral electrode implantation and 106 underwent internalization. Results. In total 178 electrodes were implanted with a mean follow-up of 42.6 months and a cumulative follow-up of 367.7 patient-years. Four patients (3.8%) developed an infection related to the DBS-hardware and all were initially treated with antibiotics. Two patients eventually required additional surgical treatment. Conclusion. Infections due to DBS-hardware can result in considerable levels of morbidity. In certain cases antibiotic therapy may be adequate. In others, surgical intervention to externalise the electrodes may be necessary. In our experience, there was never a need to remove the electrodes.

The neurosurgical treatment of addiction

Addiction or substance dependence is a psychiatric disorder that affects many individuals in the general population. Different theories concerning the neurobiological aspects of addiction have been proposed. Special attention has been paid to models concerning dysregulation of the reward circuit and the inhibitory control system within the cortico-basal ganglia-thalamocortical pathways. In the past, attempts have been made to treat patients suffering from addiction by performing psychosurgery. Lesions were created in specific brain regions that were believed to be dysfunctional in addiction. Procedures such as cingulotomy, hypothalamotomy, and resection of the substantia innominata and the nucleus accumbens have been described as a treatment for severe addictive disorders. Deep brain stimulation, a neurosurgical treatment that has been proven to be a safe alternative for lesions in the treatment of movement disorders, has more recently been proposed as treatments for severe psychiatric conditions such as treatment-refractory obsessive-compulsive disorder and depression. With the expanding knowledge of the neurobiology of addiction, deep brain stimulation could be a future option in the treatment arsenal of addiction.

Differential effects of subthalamic nucleus stimulation in advanced Parkinson disease on reaction time performance

The aim of the present study was to assess the effect of bilateral subthalamic nucleus (STN) stimulation and dopaminergic medication on speed of mental processing and motor function. Thirty-nine patients suffering from advanced Parkinson disease (PD) were operated on. Motor function and reaction time (RT) performance [simple RT (SRT) and complex RT (CRT)] were evaluated under four experimental conditions with stimulation (stim) and medication (med) on and off: stim-on/med-on, stim-on/med-off, stim-off/med-off and stim-off/med-on. In the last condition, the patients received either low medication (usual dose) or high medication (suprathreshold dose). STN stimulation improved the motor performance in the SRT and CRT tasks. Furthermore, STN deep brain stimulation (DBS) also improved response preparation as shown by the significant improvement of the RT performance in the SRT task. This effect of STN DBS on the RT performance in the SRT task was greater as compared with the CRT task. This is due to the more complex information processing that is required in the CRT task as compared to the SRT task. These data suggest that treatment of STN hyperactivity by DBS improves motor function, confirming earlier reports, but has a differential effect on cognitive functions. The STN seems to be an important modulator of cognitive processing and STN DBS can differentially affect motor and associative circuits.

Long-term outcome of thalamic deep brain stimulation in two patients with Tourette syndrome

Objective Thalamic deep brain stimulation for intractable Tourette Syndrome was introduced in 1999 by Vandewalle et al. In this follow-up study, the authors report on the long-term (6 and 10 years) outcome in terms of tic reduction, cognition, mood and side effects of medial thalamic deep brain stimulation in two previously described Tourette patients. Methods The authors compared the outcome of two patients at 6 and 10 years after surgery with their preoperative status and after 8 months and 5 years of treatment, respectively. Standardised video recordings were scored by three independent investigators. Both patients underwent (neuro)psychological assessment at all time points of follow-up. Results Tic improvement observed at 5 years in patient 1 (90.1%) was maintained at 10 years (92.6%). In patient 2, the tic improvement at 8 months (82%) was slightly decreased at 6 years (78%). During follow-up, case 1 revealed no changes in cognition, but case 2 showed a decrease in verbal fluency and learning which was in line with his subjective reports. Case 2 showed a slight decrease in depression, but overall psychopathology was still high at 6 years after surgery with an increase in anger and aggression together with difficulties in social adaptation. Besides temporary hardware-related complications, no distressing adverse effects were observed. Conclusion Bilateral thalamic stimulation may provide sustained tic benefit after at least 6 years, but to maximise overall outcome, attention is needed for postoperative psychosocial adaptation, already prior to surgery.

Automatic trajectory planning for deep brain stimulation: a feasibility study

DBS for Parkinsons disease involves an extensive planning to find a suitable electrode implantation path to the selected target. We have investigated the feasibility of improving the conventional planning with an automatic calculation of possible paths in 3D. This requires the segmentation of anatomical structures. Subsequently, the paths are calculated and visualized. After selection of a suitable path, the settings for the stereotactic frame are determined. A qualitative evaluation has shown that automatic avoidance of critical structures is feasible. The participating neurosurgeons estimate the time gain to be around 30 minutes.

Neurostimulatory and ablative treatment options in major depressive disorder: a systematic review

IntroductionMajor depressive disorder is one of the most disabling and common diagnoses amongst psychiatric disorders, with a current worldwide prevalence of 5–10% of the general population and up to 20–25% for the lifetime period.Historical perspectiveNowadays, conventional treatment includes psychotherapy and pharmacotherapy; however, more than 60% of the treated patients respond unsatisfactorily, and almost one fifth becomes refractory to these therapies at long-term follow-up.Nonpharmacological techniquesGrowing social incapacity and economic burdens make the medical community strive for better therapies, with fewer complications. Various nonpharmacological techniques like electroconvulsive therapy, vagus nerve stimulation, transcranial magnetic stimulation, lesion surgery, and deep brain stimulation have been developed for this purpose.DiscussionWe reviewed the literature from the beginning of the twentieth century until July 2009 and described the early clinical effects and main reported complications of these methods.

Vertical gaze palsy after thalamic stimulation for Tourette syndrome: case report.

OBJECTIVEWe describe a patient who developed a vertical gaze paralysis after deep brain stimulation performed for intractable Tourette syndrome due to a small deep bleeding in the upper mesencephalon. CLINICAL PRESENTATIONA 39-year-old man underwent thalamic deep brain stimulation for intractable Tourette syndrome. Immediately postoperatively, he had diplopia and dizziness. The neurological examination revealed vertical gaze palsy with preserved vertical oculocephalic movements. A postoperative computed tomography scan revealed a discrete high-density lesion across the midline at the distal end of the left electrode. This area corresponds with the pretectal area, including the rostral interstitial nucleus of the medial longitudinal fasciculus, with sparing of the oculomotor and rubral nuclei. INTERVENTIONSix months postoperatively, maximal upward and downward smooth pursuit eye movements were achieved. Upward saccadic velocities were still reduced by 20 to 25 degrees. CONCLUSIONThis case report describes a complication that might demand special attention during the planning of thalamic deep brain stimulation for the treatment of Tourette syndrome. Examination of both horizontal and vertical eye movements during deep brain stimulation surgery is recommended.