Clinical Research Directory

A First-in-human Study of S230815 in Pediatric Participants With KCNT1-related Developmental and Epileptic Encephalopathy

Study CL1-230815-001 (KANDLE) is a Phase Ib/II, First In Human, multicentre, open-label, multiple ascending dose study to assess the safety, tolerability, pharmacokinetics (PK) and pharmacodynamic (PD) effect of S230815 in pediatric participants with KCNT1-related Developmental Epileptic Encephalopathy. To participate in the study, participants must have a diagnosis of Developmental Epileptic Encephalopathy due to a documented pathogenic or likely pathogenic variant in KCNT1 (to be confirmed by central genetic testing at the screening visit). The study consists of a screening period followed by two consecutive interventional parts. Part 1 will evaluate multiple ascending doses of S230815. Part 2 is a long-term treatment extension for participants who have completed Part 1. Participants will seamlessly roll-over from Part 1 to Part 2, resuming the same cohort as they were assigned in Part 1, and will receive S230815 for a maximum of 72 weeks.

Genetics of Epilepsy and Related Disorders

Investigators at Boston Children's Hospital are conducting research in order to better understand the genetic factors which may contribute to epilepsy and related disorders. These findings may help explain the broad spectrum of clinical characteristics and outcomes seen in people with epilepsy.

Creation of a Register of Patients With Neonatal-onset Epileptic Encephalopathy

Electrical activity emerges in the third trimester of pregnancy, plays an important role in the construction of cortical maps, and is impaired in patients with severe early epileptic encephalopathies (EOEE). EOEE are rare and severe epileptic syndromes characterized by epilepsy that begins within the first three months of life and is associated with rapid deterioration of motor, cognitive and behavioral skills. There is a genetic basis for the EOEE. Together with other laboratories, the investigators have identified de novo pathogenic variants in the KCNQ2 gene encoding the Kv7.2 subunit of the Kv7 / M potassium channel, a channel known to control neuronal excitability in the brain and spinal cord. via the current M (IM). Pathogenic variants of the KCNQ2 gene represent the main cause of EOEE and the term KCNQ2-related epileptic encephalopathy (KCNQ2-REE) is now used to define this condition. KCNQ2-REE patients have a remarkably homogeneous phenotype at the start, with epilepsy that begins in the first days after birth, seizures that result in tonic muscle spasms that last from 1 to 10 seconds, and an interictal EEG called "suppression-burst". "That is, paroxysmal bursts of activity interspersed with periods of electrical silence. In this group, more than 50% of the patients present a remission of the epilepsy and a quasi-normalization of the EEG which can occur a few weeks to several months after the onset of the seizures. Despite this positive evolution in terms of seizures, the developmental progression is abnormal and the phenotype is severe with an absence of language, autistic behavior and a subsequent development of motor disorders such as diplegia, spasticity, ataxia or dystonia. The ambition of this project is to increase knowledge of epileptic encephalopathies linked to KCNQ2 at the clinical and molecular levels, to decipher the pathophysiological mechanisms and to propose therapeutic strategies. This project aims to better describe the clinical, EEG, imaging, developmental and long-term follow-up characteristics of patients carrying the KCNQ2 mutation identified in the laboratory.

A Clinical Trial of Elsunersen in Pediatric SCN2A-DEE to Assess Efficacy and Safety

A Randomized, Multi-Center, Double-Blind, Sham-Procedure-Controlled Clinical Trial to Investigate the Efficacy and Safety of Elsunersen in Pediatric Participants with Early Onset SCN2A Developmental and Epileptic Encephalopathy

Home Ultra-long Term EEG Monitoring for Rare Epilepsies and Developmental and Epileptic Encephalopathies

With this study the Investigator expects to develop a precise patient-centered model of care by means of home ultra-long-term EEG monitoring with a minimally invasive wearable EEG device (sqEEG). The following aims will be pursued: 1. to assess the sensitivity, reliability, and safety of sqEEG to record seizures over prolonged periods; 2. to verify sensitivity and reliability of automated seizure detection algorithms and to assess circadian and ultradian seizure/interictal epileptic discharges; distribution for the development of personalized seizure action plan; 3. to evaluate whether data collected with sqEEG can improve the clinical management of the patients and treatment outcomes. The investigator expects to use this wearable at-home EEG device to obtain an objective quantification of electrographic and electro-clinical seizures over a twelve-week period up to twenty-four weeks at home. The precise quantification of seizures is essential for a tailored treatment approach and to effectively monitor the response to treatment adjustments. The potential innovation of this approach relies on the possibility of managing the patient at home, reducing the side effects related to hospitalization and objectively quantifying the disease burden in the real-life setting with the aim of improve globally the patients' quality of life.