Submammary Implantation of Internal Pulse Generators for Deep Brain Stimulation: Long-Term Follow-up of Device Acceptance and Quality of Life in Women.

BACKGROUND: A submammary approach to implanting pulse generators is innovative and has yielded good aesthetic results in the current literature. It was our aim to make a comparison of patient device acceptance, tolerance, and complications between submammary and abdominal device locations in deep brain stimulation. METHODS: Twenty-five and 28 patients were included in the submammary and abdominal groups, respectively. Our primary criterion was patient acceptance that was calculated using total Florida Patient Acceptance Survey (FPAS) scores in each group. Secondarily, tolerance was assessed in the submammary group by means of a specific questionnaire. RESULTS: Total FPAS scores from the submammary group [total FPAS: 77.1 versus 74.7, P = 0.29] revealed no significant difference when compared with the abdominal group. The same similarities were observed regarding the 4 subscales: return to function [16.3 versus 15.8, P = 0.53], device-related distress [22.0 versus 21.3, P = 0.31], body image concerns [9.2 versus 8.6, P = 0.14], and positive appraisal [17.8 versus 17.4, P = 0.58]. Tolerance was reported as good by the majority of the women from the submammary group. There was no evidence of higher infection rates in the submammary implantation (SMI) group. CONCLUSIONS: SMI is a satisfactory alternative to other deep brain stimulation locations. SMI is a feasible option for any young woman who is eligible for deep brain stimulation.

Deep Brain Stimulation and Hypoxemic Perinatal Encephalopathy: State of Art and Perspectives.

Cerebral palsy (CP) is a heterogeneous group of non-progressive syndromes with lots of clinical variations due to the extent of brain damages and etiologies. CP is majorly defined by dystonia and spasticity. The treatment of acquired dystonia in CP is very difficult. Many pharmacological treatments have been tried and surgical treatment consists of deep brain stimulation (continuous electrical neuromodulation) of internal globus pallidus (GPi). A peculiar cause of CP is neonatal encephalopathy due to an anoxic event in the perinatal period. Many studies showed an improvement of dystonia in CP patients with bilateral GPi DBS. However, it remains a variability in the range of 1% to 50%. Published case-series concerned mainly small population with a majority of adult patients. Selection of patients according to the clinical pattern, to the brain lesions observed on classical imaging and to DTI is the key of a high success rate of DBS in children with perinatal hypoxemic encephalopathy. Only a large retrospective study with a high number of patients in a homogeneous pediatric population with a long-term follow-up or a prospective multicenter trial investigation could answer with a high degree of certitude of the real interest of this therapeutic in children with hypoxemic perinatal encephalopathy.

Task- and Rest-based Functional Brain Connectivity in Food-related Reward Processes among Healthy Adolescents.

It is known that the nucleus accumbens, orbitofrontal cortex and insula play a role in food-related reward processes. Although their interconnectedness would be an ideal topic for understanding food intake mechanisms, it nevertheless remains unclear especially in adolescent. Therefore, this study aims to investigate the effect of hunger on functional connectivity in healthy adolescents using task- and rest-based imaging. Fifteen participants underwent two MRI sessions, pre-lunch (hunger) and post-lunch (satiety), including food cue task and resting-state. During task- and rest-based imaging, functional connectivity was greater when hungry as opposed to satiated between the right posterior insula/nucleus accumbens, suggesting involvement of salient interoceptive stimuli signals. During task-based imaging, an increase was observed in functional connectivity when hungry as opposed to satiated between the medial and lateral orbitofrontal cortex which contributes to the perception of food deprivation as a frustration. A decrease was identified when hungry as opposed to satiated in functional connectivity in the right anterior orbitofrontal/accumbens and posterior insula/medial orbitofrontal cortices reflecting suppression of the affective and sensorial information. Conversely, functional connectivity was increased during aversive stimuli between the right medial orbitofrontal cortex and right posterior insula when hungry as opposed to satiated. This suggests that the value of valence could occur in the shift in connectivity between these two regions. In addition, during rest-based imaging, a left-sided lateralization was reported (accumbens/lateral orbitofrontal and accumbens/posterior insula) when hungry as opposed to satiated which may represent changes in internal state due to focus on the benefit of an upcoming meal.

Does pallidal neuromodulation influence cognitive decline in Huntington's disease?

OBJECTIVE: Huntington's disease (HD) is an autosomal dominant neurodegenerative disorder associated with motor, psychiatric and cognitive deterioration over time. To date, Continuous Electrical Neuromodulation (CEN) of the globus pallidus internus (GPi) has been reported to improve chorea but little is known about cognitive progression in these patients. We propose to examine CEN impact on expected cognitive decline throughout long-term neuropsychological assessment of a cohort of HD patients. METHOD: 13 consecutive HD patients underwent GPi neuromodulation between January 2008 and February 2019. Over a 5-year follow-up period, they received systematic pre- and post-operative assessment according to the existing protocol in our unit. The main outcome measure was the total score obtained on the Mattis Dementia Rating Scale (MDRS) as an indicator of global cognitive function. RESULTS: Chorea decreased in all patients postoperatively with a mean improvement of 56% despite disease progression over time, according to previous studies. Moreover we found that the global cognitive profile of HD patients treated with CEN was stable during the first 3 years of treatment. CONCLUSION: We report an unexpected positive influence of GPi continuous electrical neuromodulation on the progression of global cognitive functioning in operated HD patients. This is the most important group of patients treated with this method to our knowledge whatever the sample size remains small. This result provides promising evidence of GPi-CEN efficacy not only in reducing chorea, but also in delaying cognitive decline in HD patients operated at an early stage of the disease.

Differential effects of hunger on cerebral blood flow in healthy adolescents.

Adolescence represents a key developmental period in terms of both mood and overweight and is linked to disturbed eating behavior. Therefore, it is essential to investigate the basis of food intake in healthy adolescents by considering mood impacts which remain largely unexplored. Hence this study aims to investigate the impact of hunger and mood on cerebral blood flow (CBF) changes in healthy adolescents. Fifteen participants underwent two MRI sessions including a 3D pseudo-continuous arterial spin labeling sequence: pre-lunch (hunger) and post-lunch (satiety). Mood was assessed using the Multiscore Depression Inventory for Children. We found higher CBF values in the posterior insula in response to hunger compared to satiety, an area of the brain which contributes to the anticipation and motivation of feeding. In response to satiation, we observed higher CBF values in the precuneus, lingual gyrus and cuneus which are involved in the aspects of response inhibition related to food intake. Furthermore, we show that correlation between mood assessment and CBF is modulated by appetite in the precuneus, anterior cingulate gyrus, anterior orbitofrontal gyrus, occipital gyrus and cuneus, suggesting that participants affected by depressed mood could use ruminative processing in order to evaluate the reward of an upcoming meal.

Deep brain stimulation for Huntington's disease: long-term results of a prospective open-label study.

UNLABELLED: OBJECT.: To date, experience of globus pallidus internus (GPi) deep brain stimulation (DBS) in the treatment of Huntington's disease (HD) has been limited to a small number of case reports. The aim of this study was to analyze long-term motor outcome of a cohort of HD patients treated with GPi DBS. METHODS: Seven patients with pharmacologically resistant chorea and functional impairment were included in a prospective open-label study from 2008 to 2011. The main outcome measure was the motor section of the Unified Huntington's Disease Rating Scale. The primary end point was reduction of chorea. RESULTS: Patients underwent MRI-guided bilateral GPi implantation. The median duration of follow-up was 3 years. A significant reduction of chorea was observed in all patients, with sustained therapeutic effect; the mean improvement on the chorea subscore was 58.34% at the 12-month follow-up visit (p = 0.018) and 59.8% at the 3-year visit (p = 0.040). Bradykinesia and dystonia showed a nonsignificant trend toward progressive worsening related to disease evolution and partly to DBS. The frequency of stimulation was 130 Hz for all patients. DBS-induced bradykinesia was managed by pulse-width reduction or bipolar settings. Levodopa mildly improved bradykinesia in 4 patients. Regular off-stimulation tests confirmed a persistent therapeutic effect of DBS on chorea. CONCLUSIONS: GPi DBS may provide sustained chorea improvement in selected HD patients with pharmacologically resistant chorea, with transient benefit in physical aspects of quality of life before progression of behavioral and cognitive disorders. DBS therapy did not improve dystonia or bradykinesia. Further studies including quality of life measures are needed to evaluate the impact of DBS in the long-term outcome of HD.