Estelle Pruvost-Robieux scite author profile

Estelle Pruvost-Robieux

2Publications

44Citation Statements Received

152Citation Statements Given

How they've been cited

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143

Affiliations

FHU Neurovasc, Université Paris Cité, Inserm

Publications

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The Effectiveness of Vagus Nerve Stimulation in Drug-Resistant Epilepsy Correlates with Vagus Nerve Stimulation-Induced Electroencephalography Desynchronization

et al. 2020

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Aim: To investigate electroencephalographic (EEG) metrics of functional connectivity in patients with drugrefractory epilepsy treated by vagus nerve stimulation (VNS), between VNS-stimulated ''ON'' and nonstimulated ''OFF'' periods and between responder (R) and nonresponder (NR) patients. Introduction: VNS is an adjunctive neuromodulation therapy for patients with drug-refractory epilepsy. The antiseizure effect of VNS is thought to be related to a diffuse modulation of functional connectivity but remains to be confirmed. Methods: Scalp-EEG was performed for 35 patients treated by VNS, using 21 channels and 2 additional electrodes on the neck to detect the VNS stimulation. Patients were defined as VNS responders if a reduction of seizure frequency of *50% was documented. We analyzed the synchronization in EEG time series during ''ON'' and ''OFF'' periods of stimulation, using average phase lag index (PLI) in signal space and phase-locking value (PLV) between 10 sources. Based on graph theory, we computed brain network models and analyzed minimum spanning tree (MST) for responder and nonresponder patients. Results: Among 35 patients treated by VNS for a median time of 7 years (range 4 months to 22 years), 20 were R and 15 were NR. For responder patients, PLI during ON periods was significantly lower than that during OFF periods in delta (p = 0.009), theta (p = 0.02), and beta (p = 0.04) frequency bands. For nonresponder patients, there were no significant differences between ON and OFF periods. Moreover, variations of seizure frequency with VNS correlated with the PLI OFF/ON ratio in delta (p = 0.02), theta (p = 0.04), and beta (p = 0.03) frequency bands. Our results were confirmed using PLV in theta band (p < 0.05). No significant differences in MST were observed between R and NR patients. Conclusion: The correlation between VNS-induced interictal EEG time-series desynchronization and decrease in seizure frequency suggested that VNS therapeutic impact might be related to changes in interictal functional connectivity.

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Cathodal Transcranial Direct Current Stimulation in Acute Ischemic Stroke: Pilot Randomized Controlled Trial

Pruvost-Robieux

Benzakoun

Turc

et al. 2021

Stroke

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Background and PURPOSE: In acute stroke, preventing infarct growth until complete recanalization occurs is a promising approach as an adjunct to reperfusion therapies to reduce infarct size and improve outcome. In rodent models, cathodal transcranial direct current stimulation (C-tDCS) decreases peri-infarct depolarizations and reduces infarct volume. We hypothesized that C-tDCS would nonpharmacologically reduce infarct growth in hyperacute middle cerebral artery territory stroke patients receiving reperfusion therapy. Methods: STICA (Cathodal Transcranial Direct Stimulation in Acute Middle Cerebral Artery Stroke) was a pilot single-center, double-blind, 2-arms 1:1 randomized trial evaluating the safety, feasibility, and efficacy of C-tDCS versus sham stimulation in patients eligible for recanalization therapies. Magnetic resonance imaging was obtained both on admission and 24 hours later. The primary end point was 24-hour infarct growth. Secondary outcomes were (1) National Institutes of Health Stroke Scale score difference between day 7 and admission and (2) 3-month modified Rankin Scale score. Results: Forty-five patients were randomized. Median magnetic resonance imaging-to-C-tDCS start time was 45 minutes; C-tDCS was started before completion of recanalization procedure in all patients. The intervention proved feasible in all patients. No major adverse effects occurred in either group. There was no significant difference between active and sham groups for any end point. However, an apparent trend towards smaller infarct growth in the C-tDCS arm was observed in the whole group (unadjusted median difference [IC 95% ]: −2.2 mL [−12.2 to 1.5]) and in the prespecified subsamples with moderate-to-severe stroke and large vessel occlusion (−5.7 mL [−21.6 to 2.6] and −7.7 mL [−24.2 to 2.6], respectively). Conclusions: C-tDCS was feasible and well tolerated. No significant difference was found between the active and sham groups. However, the data suggest potential benefits of C-tDCS in patients with National Institutes of Health Stroke Scale score of >10 or large vessel occlusion. Using the observed effect size and standard α=5% and β=20%, samples of 102 and 86, respectively, can be estimated for future trials in patients with these characteristics. Randomized trials particularly targeting these populations may be warranted.

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