View clinical trials related to Epilepsy.
Filter by:The purpose is to evaluate specific capacities of face detection of individual neurons by comparison with their capacity of object detection in medial temporal lobe and ventral temporal cortex in epileptic patients. Secondary purpose is to evaluate specific capacities of detection of known faces of individual neurons by comparison with their capacity of detection of unknown faces in medial temporal lobe and ventral temporal cortex in epileptic patients.
Perampanel is a non-competitive antagonist of the AMPA ( 2-amino-3-(5-méthyl-3-hydroxy-1,2-oxazol-4-yl)) propanoïc acid receptors which was approved by the European Medicines Agency as adjunctive treatment for partial-onset seizures in patients 12 years and older, in 2012. The aim of this study is to evaluate effectiveness and safety of perampanel as add-on treatment in patients with refractory epilepsy. The investigators retrospectively collected and analyzed the data of patients with refractory epilepsy who had been treated with perampanel between May of 2014 and April of 2015. In total, one hundred and ten patients were included (mean age 41 [SD = 15.2]). The mean duration of epilepsy was 25 years (SD = 14.4). The mean perampanel dose was 5.7 mg/d (SD = 2.3). The retention rate was 77% at 6 months and 61% at 12 months. After 6 months, the responder rate was 35.5%. Eight patients (7.3%) became seizure free. Adverse effects were reported in 60 patients (54.5%). Most common side effects were behaviour disturbance (22.7%), dizziness (15.5%), asthenia (11.8), somnolence (10%) and ataxia (9.1).
Presurgical evaluation of epileptic patients require a precise mapping of cerebral regions implied in epileptic discharges and in normal function. The current practice in most cases is to implant intracerebral electrodes in order to localize these regions in a reliable manner. However, non-invasive methods have been developed in order to record brain activity with no risk for the patient. Still, it is necessary to validate and improve the signal processing methods and the underlying models these methods in order to optimize their use in clinical practice. To do so, it is necessary to record simultaneously electroencephalogram (EEG) and magnetoencephalogram (MEG) and stereo encephalogram SEEG (intracerebral). Such simultaneous recordings will permit to confront the exact same activity recorded non-invasively at the surface of the head, and represented on the brain thanks to the model and directly within the brain. The objective is to define the conditions under which one can represent faithfully the activity measured intracerebrally from the surface measurements. It will be record simultaneously MEG, scalp EEG and intracerebral EEG on a series of 60 patients. It will be record resting state signals, as well as stimulation protocols. The interictal epileptic discharges will be marked on the different modalities, and evoked potentials/fields computed in response to protocols. Sensitivity of recordings to activity visible on depth recordings will be evaluated as a function of localization of brain generators. Advanced signal processing methods will be used such as source localization and independent component analysis, in order to increase sensitivity of measures.
This prospective research aims to develop the use of Spectral Imaging in addition Dynamics of cortical electrical stimulation to identify major anatomical and functional networks in epileptic patients candidates for surgery and explored by stereoencephalography, to minimize risk of post-surgical cognitive deficits.
This is a single site, non-randomized, prospective, open-label, interventional pilot/feasibility study. Patients recruited will have medically-refractory focal neocortical epilepsy, defined on the basis of presence of focal spikes and (if available) focal seizure onsets originating from the lateral cortical surface of any lobe. All patients and referring physicians will be requested to maintain their current antiepileptic drugs throughout the study with changes after enrollment permitted only to maintain pre-enrollment drug levels, or if clinically necessary. The primary outcome measure will be the change in seizure frequency (seizures/week) as compared to baseline. Patients with medically-refractory neocortical epilepsy will receive cathodal tDCS administered to the seizure focus for 10 sessions over a 2-week period with the allowance of make-up sessions in week three. Subjects will be evaluated at baseline, during the stimulation sessions, and 8 weeks after the completion of the tDCS visits
Beyond 60 years, the prevalence of epilepsy is estimated at approximately 1% and increases with age. In these patients, the etiology of epilepsy is unknown in 25% of cases, even up to 55% after 65 years. Although new-onset epilepsy in the elderly is associated with a vascular disease in 50% of cases, the hypothesis of an ongoing neurodegenerative process, including an Alzheimer's disease (AD), is also common. However, investigators do not have any marker that might help to identify the patients who develop epilepsy after 60 years and who might be, despite a normal cognitive functioning, already engaged in the pathophysiological process of AD. A number of data suggest a link between the pathophysiological process of AD and epileptogenesis: (i) a third of patients with epilepsy develops MA, (ii) the occurrence of epilepsy in AD is an aggravating factor for cognition, (iii) in animal models of AD, the relationship between neuronal hyperexcitability and amyloid deposits is bidirectional, the amyloid protein has a pro-seizure effect and the presence of epilepsy increases the amyloid deposits, (iv) in these models, the administration of an antiepileptic drug protects from deterioration of cognition, (v) the close relationship between amyloid and neuronal hyperexcitability might be mediated by the inflammatory processes associated with AD, and particularly the microglial activation which role in epileptogenesis has been shown elsewhere. Investigators hypothesize that in a subgroup of patients who develop epilepsy after 60 years, the occurrence of epilepsy might reflect the presence of an ongoing amyloid pathology. Our goal is to identify through biomarkers of AD in the cerebrospinal fluid of patients who develop an epilepsy after 60 years with normal MRI and normal cognition those at high risk of later developing clinically defined AD. Identifying patients with amyloid pathology which would be expressed through epilepsy before the onset of cognitive dysfunction might help to adapt both the management of seizures and of the cognitive dysfunction.
This work is intended to assess the effect of -30 minutes- exposure to mobile-phone on the functions of the central nervous system (CNS) in epileptic patients.
Electroencephalograhy (EEG) is used as a tool for diagnosing epilepsy/convulsions. During the recording, especially for childen who are suspected of having abbcence epilepsy the investigators will perform an EEG recording including a provocation test of hyperventilation in order to induce epileptic discharges. There is no clear instruction about the position of the child during performing this hyperventilation provocation. Clinical observations showed that this provocation is more effective when it's performed in the siiting position. No study was previously performed to investigate this issue
Study design is a Phase IIb prospective multi-center, randomized, placebo-controlled, double-blind clinical trial. The goal will be to enroll 80 infants with Tuberous Sclerosis Complex who are less than 6 months of age prior to the onset of their first seizure
To determine the utility of diffusion tensor magnetic resonance imaging in the preoperative workup of children with intractable epilepsy referred for surgery.