View clinical trials related to Epilepsy.
Filter by:A prospective controlled, randomized study to examine the effects of behavioral and wellness-based interventions on seizure frequency for adult patients with medication resistant epilepsy who are still experiencing 1 or more seizures per month.
Ιn the present study (BIOEPI), the following three hypotheses will be investigated: 1. The proposed TMS-EEG / EMG protocol (which includes software for calculating the cerebral cortex stimulation threshold) in combination with advanced signal analysis and data mining methods will allow the detection of the effect of antiepileptic drugs (AED) with different mechanisms of action (lacosamide & brivaracetam) in the Central Nervous System under healthy and pathological conditions (Epilepsy). 2. AED-induced changes in selected TMS-EEG / EMG features predict the clinical response of individual epileptic patients to AED. 3. AED-induced changes in selected TMS-EEG / EMG features may predict cognitive side effects.
Prospective longitudinal observational registry study of all patients with epilepsy treated in the Mainz Comprehensive Epilepsy and Sleep Medicine Center with the focus on the course of the disease and quality of life.
Epilepsy is one of the common chronic diseases of the central nervous system. 30% to 40% of patients with epilepsy have varying degrees of cognitive impairment, which affects their quality of life. At present, the treatment of cognitive impairment in patients with epilepsy is relatively scarce, and the therapeutic effect is still not ideal. Recent studies have shown that sleep disorder is also an important factor causing cognitive dysfunction, and improving sleep quality has a prospect to become a new way to treat cognitive impairment in patients with epilepsy. The purpose of this study is to observe the relationship between sleep and cognitive function in patients with epilepsy, and to improve the sleep quality of patients with epilepsy, so as to provide new ideas for improving cognitive impairment in patients with epilepsy.
Transcranial current stimulation (tCS), a safe, tolerable technique employing weak currents (~ 1 mA) applied to the scalp, has been shown to be a promising technique in alleviating seizures in focal epilepsy patients. Although studies reveal a decrease in the epileptiform activity due to tCS, this field lacks a quantification of neurophysiological changes during and immediately after stimulation. The investigators hypothesise that tCS can effectively reduce the amplitude and rate of interictal spikes as well as the functional connectivity between regions during and immediately after stimulation. It is thus planned to deliver an extensive quantitative description of the tCS effects on interictal spike activity, functional connectivity and other tissue biomarkers, using the simultaneous recording of intracranial signals during tCS. Moreover, the investigators seek to compare these variations between different tCS paradigms (direct current -tDCS- vs alternate current -tACS- stimulation).
The justification of this prospective and multicenter study is based on the absence of published data concerning, status epilepticus (SE), a pathology which seems frequent in the French West Indies (FWI) and French Guiana, and whose etiological and prognostic characteristics are often mentioned or assumed but which remain to be demonstrated. The scientific interest lies both in the knowledge of the epidemiology of this pathology and in the identification of the main etiologies, in particular the underlying brain lesions. The morbidity of SE is significant, associating neurological disorders with impaired consciousness, respiratory, hemodynamic and cardiac rhythm disorders, as well as metabolic disorders such as acidosis. SE-related mortality in the acute phase ranges from 3-40% across studies and regions, while long-term mortality ranges from 17-80% depending on age, cause of SE, comorbidities and the occurrence of complications. The prognosis of this pathology has however improved in recent years in developed countries or countries with a high level of health system. On the other hand, the morbidity and mortality of SE in the French overseas departments is not known, even if these territories are supposed to be at an equivalent level in terms of health system to that of mainland France.
The purpose of this study is to assess the ability of the home-based intervention, HOBSCOTCH-PTE, to improve the quality of life and cognitive function in Service Members, Veterans and civilians with post traumatic epilepsy (PTE). This study will also assess the ability of the HOBSCOTCH-PTE program to improve quality of life in caregivers of PTE patients and to reduce caregiver burden.
Ketogenic dietary therapies (KDTs) are well-established, safe, non-pharmacologic treatments used for children and adults with drug-resistant epilepsy and other neurological disorders. Ketone bodies levels undergo a significant inter-individual and intra-individual variability and can be affected by several factors. This evidence suggests the need for personalized monitoring for diet optimization, especially at the beginning of the treatment but during whole follow-up. Possible variations in glycemia and ketone bodies' blood level according to different phases of menstrual cycle have not been systematically assessed yet, but this time window deserves special attention because of hormonal and metabolic related changes. We present the methodological protocol for a longitudinal, multicentric study aimed at searching for subtle changes in ketone bodies blood level during menstrual cycle in epileptic female patients undergoing a stable ketogenic diet. The study will be divided into two phases. The first one will be purely observational, aiming at the assessment of ketonemia during menstrual cycle. Whether this finding will be confirmed, a second phase of ketogenic diet therapy adjustment will be scheduled.
This study is a pilot non-controlled clinical trial with adjunctive fenfluramine for the treatment of five different types of developmental and epileptic encephalopathies (DEEs) focused on epileptic and "non-epileptic outcomes": SYNGAP1 and STXBP1 encephalopathies, inv-dup(15) encephalopathy, multifocal or bilateral malformations of cortical development, and continuous spikes and waves during sleep. The main goal is to assess changes in seizure frequency comparing before and after treatment with fenfluramine in five specific types of developmental and epileptic encephalopathies (DEEs). Secondary objectives of this study are the analysis of changes in seizure intensity and duration, and "non-epileptic outcomes" such as variations in cognitive activity, level of alertness, impulsivity/self-control, gait stability and other alterations that might be detected during the interview and physical examination.
The objective of this multicentre study is to collect preoperative, intra operative, early, short, intermediate and mid-term(one years) on the related clinical complications and functional outcomes of market-approved Alcis products to demonstrate safety and performance of these devices in a real-world setting.