Sub-second Dopamine Signals during Risky Decision-Making in Patients with Impulse Control Disorder.

Background: Impulse Control Disorder (ICD) in Parkinson's disease is a behavioral addiction arising secondary to dopaminergic therapies, most often dopamine receptor agonists. Prior research implicates changes in striatal function and heightened dopaminergic activity in the dorsal striatum of patients with ICD. However, this prior work does not possess the temporal resolution required to investigate dopaminergic signaling during real-time progression through various stages of decision-making involving anticipation and feedback. Methods: We recorded high-frequency (10Hz) measurements of extracellular dopamine in the striatum of patients with (N=3) and without (N=3) a history of ICD secondary to dopamine receptor agonist therapy for Parkinson's disease symptoms. These measurements were made using carbon fiber microelectrodes during awake DBS neurosurgery and while participants performed a sequential decision-making task involving risky investment decisions and real monetary gains and losses. Per clinical standard-of-care, participants withheld all dopaminergic medications prior to the procedure. Results: Patients with ICD invested significantly more money than patients without ICD. On each trial, patients with ICD made smaller adjustments to their investment levels compared to patients without ICD. In patients with ICD, dopamine levels rose or fell on sub-second timescales in anticipation of investment outcomes consistent with increased or decreased confidence in a positive outcome, respectively; dopamine levels in patients without ICD were significantly more stable during this phase. After outcome revelation, dopamine levels in patients with ICD rose significantly more than in inpatients without ICD for better-than-expected gains. For worse-than-expected losses, dopamine levels in patients with ICD remained level whereas dopamine levels in patients without ICD fell. Conclusion: We report significantly increased risky behavior and exacerbated phasic dopamine signaling, on sub-second timescales, anticipating and following the revelation of the outcomes of risky decisions in patients with ICD. Notably, these results were obtained when patients who had demonstrated ICD in the past but were, at the time of surgery, in an off-medication state. Thus, it is unclear whether observed signals reflect an inherent predisposition for ICD that was revealed when dopamine receptor agonists were introduced or whether these observations were caused by the introduction of dopamine receptor agonists and the patients having experienced ICD symptoms in the past. Regardless, future work investigating dopamine's role in human cognition, behavior, and disease should consider the signals this system generates on sub-second timescales.

Intracranial approach for sub-second monitoring of neurotransmitters during DBS electrode implantation does not increase infection rate.

INTRODUCTION: Currently, sub-second monitoring of neurotransmitter release in humans can only be performed during standard of care invasive procedures like DBS electrode implantation. The procedure requires acute insertion of a research probe and additional time in surgery, which may increase infection risk. We sought to determine the impact of our research procedure, particularly the extended time in surgery, on infection risk. METHODS: We screened 602 patients who had one or more procedure codes documented for DBS electrode implantation, generator placement, programming, or revision for any reason performed at Wake Forest Baptist Medical Center between January 2011 through October 2020 using International Classification of Diseases (ICD) codes for infection. During this period, 116 patients included an IRB approved 30-minute research protocol, during the Phase 1 DBS electrode implantation surgery, to monitor sub-second neurotransmitter release. We used Fisher's Exact test (FET) to determine if there was a significant change in the infection rate following DBS electrode implantation procedures that included, versus those that did not include, the neurotransmitter monitoring research protocol. RESULTS: Within 30-days following DBS electrode implantation, infection was observed in 1 (0.21%) out of 486 patients that did not participate in the research procedure and 2 (1.72%) of the 116 patients that did participate in the research procedure. Notably, all types of infection observed were typical of those expected for DBS electrode implantation. CONCLUSION: Infection rates are not statistically different across research and non-research groups within 30-days following the research procedure (1.72% vs. 0.21%; p = 0.0966, FET). Our results demonstrate that the research procedures used for sub-second monitoring of neurotransmitter release in humans can be performed without increasing the rate of infection.

An unusual aetiology for internuclear ophthalmoplegia.

Typical causes of internuclear ophthalmoplegia (INO) include arterial infarcts, demyelinating conditions, inflammation and trauma. We here report the unique case of a 33-year-old man with INO of the right eye caused by infarction of the right midbrain, confirmed by diffusion-weighted MRI. At presentation he displayed impaired adduction of the right eye with normal movement of the left. CT angiogram revealed an underlying developmental venous anomaly (DVA), raising the concern of venous infarction. His symptoms improved with aggressive management of blood pressure and risk factors. The patient had vascular risk factors-smoking, hypertension and dyslipidaemia-and we theorise that the hyalinised and inelastic walls of our patient's DVA were more vulnerable to the thrombogenic effects of his risk factors, predisposing him to this event. Venous infarcts owing to DVA are rare. To our knowledge INO secondary to venous infarct has not been reported, and should be considered in the differential of such cases.

An evaluation of rating scales utilized for deep brain stimulation for dystonia.

The objective of this study was to examine globus pallidus internus deep brain stimulation (GPi-DBS) outcomes in primary and secondary dystonia, derived from blinded ratings using two scales and two raters. Twenty-five patients with variable presentations of dystonia were evaluated with videotaped standardized dystonia rating scales at preoperative baseline and at 6 and 12 months following GPi-DBS implantation. These 75 examination videos were retrospectively evaluated, independently and in random order, by two movement disorder neurologists who were blinded to the treatment status. Both neurologists scored each videotaped evaluation using the Burke-Fahn-Marsden Dystonia Rating Scale-motor part (BFMDRS-M) and the Unified Dystonia Rating Scale (UDRS). A final score for each video was assigned by averaging the raters' scores. An intra-class correlation coefficient was used to calculate inter-rater reliability. A linear mixed model was fitted to investigate the time effect and its interaction with type of dystonia (primary versus secondary) for each rating scale. Inter-rater reliability was excellent. Intraclass correlation coefficients ranged from 0.994 to 0.997 for both scales at baseline, 6 and 12 months. The average motor improvement scores after GPi DBS for the entire heterogeneous group of dystonia patients after 6 and 12 months of stimulation was 21.32% (p = 0.0010) and 28.95% (p = 0.0017), respectively, when the UDRS score was used. Similar levels of improvement 20.46% (p = 0.0055) at 6 months and 27.39% (p = 0.00197) at 12 months were found using the BFMDRS-M score. Analysis using unblinded scores from our database revealed a 32.99 and 37.27% UDRS improvement at 6 and 12 months, and an improvement in UDRS score of 38.5 and 43.7% when the analysis was limited to only primary dystonia. If the data were further segregated to include only cases of DYT-1 primary generalized dystonia, the UDRS benefit increased to 48.24%. Our primary dystonia group was diluted by the presence of both old- and young-onset patients, as well as focal, segmental and generalized dystonia. In conclusion, (1) evaluating motor outcomes of DBS therapy for dystonia using independent, randomized retrospective rating by blinded raters' results in lower improvement scores than when outcomes are rated by unblinded treating neurologists. Blinded methodology may be superior and might produce a more realistic assessment of motor outcomes after DBS in patients with dystonia; (2) outcomes were similar whether the BFMDRS-M or UDRS was utilized; (3) GPi-DBS was effective in treating sustained involuntary motor co-contractions in medication refractory dystonia patients, more so in primary dystonia.

Deep brain stimulation in movement disorders.

After more than 2 decades since it was introduced, deep brain stimulation (DBS) has gained widespread popularity as a surgical treatment for medically refractory symptoms of Parkinson disease, essential tremor, and dystonia. In this chapter, authors review the benefits, risks, indications, limitations, and targets for DBS in patients with Parkinson disease, essential tremor, and dystonia. A brief outline of the DBS procedure and programming is also given.

Apomorphine therapy in Parkinson's disease: a review.

Motor fluctuations are common and distressing for patients with advanced Parkinson's disease. Subcutaneous apomorphine injections can be an extremely valuable adjunctive therapy. In this review, the authors discuss the history, pharmacology, efficacy, safety and proper administration of apomorphine for treating 'off' states in Parkinson's disease, with a focus on intermittent subcutaneous administration.