Clinical Trials Logo

Clinical Trial Summary

The purpose of this study is to develop population pharmacokinetic models for antiepileptic drugs in a pediatric population. The interest of these models is multiple: - describe the pharmacokinetics of these molecules in children and explain the inter-individual variability of concentrations through covariates such as weight, age, co-treatments, genetic polymorphisms and renal function; - estimate maximum, minimum and exposure concentrations from the individual pharmacokinetic parameters for each patient; - propose adaptations of doses for certain classes of children (according to age, weight etc.) and individualize the doses.


Clinical Trial Description

Epilepsy affects about 1% of the population, with a peak incidence in childhood, and persistent seizures on antiepileptic therapy in approximately 30% of patients. Over the past two decades, many antiepileptic molecules have emerged, raising the question of their optimal use, especially in pediatrics, where pharmacokinetics and pharmacodynamics are different from adults and largely influenced by age and development. The pharmacokinetics of antiepileptics have been little studied in pediatric populations. In children, it is important to know if a maturational effect (of age) has to be taken into account in addition to the physiological effect (of the weight) to adapt the doses. Moreover, these molecules are often used in combination and lot of enzyme interactions make their use delicate. All of these factors explain the existence of significant inter-individual variability in the pediatric population. The implication of the demographic and medicinal factors mentioned above, as well as the balance of efficacy / undesirable effects, justify the interest of a pharmacological monitoring of these drugs in a pediatric population. The use of population pharmacokinetics is particularly interesting in children because it requires only a small number of samples per patient and can be used to describe the predominant inter-individual variability in this population. The main goal is to develop population pharmacokinetic models for the following antiepileptic drugs in children: valproic acid, carbamazepine, phenobarbital, phenytoin, levetiracetam, lamotrigine, topiramate, oxcarbazepine, stiripentol, clobazam, brivaracétam, felbamate, lacosamide, rufinamide, gabapentine, pregabaline, sultiame, tiagabine, vigabatrine, mesuximide, primidone, perampanel, ethosuximide, zonisamide and cannabidiol. The interest of these models is multiple: - describe the pharmacokinetics of these molecules in children and explain the interindividual variability of concentrations through covariates such as weight, age, co-treatments, genetic polymorphisms and renal function; - estimate maximum, minimum and exposure concentrations from the individual pharmacokinetic parameters for each patient; - propose adaptations of doses for certain classes of children (according to age, weight etc.) and individualize the doses. The secondary objectives of this work are: - Build models jointly with several antiepileptic drugs, accounting for the strength of interactions between them during multiple therapies. - Link antiepileptic concentrations to the effects of treatment (reduction or cessation of seizures): pharmacokinetic-pharmacodynamic study with concentration / efficacy and concentration / toxicity relationships. - The evaluation of preexisting models in the literature and the comparison of the data with the results of these models (external validation). Pharmaco-statistical analysis will be carried out on the retrospective data of patients treated with one or more antiepileptic molecule (s) and whose blood dosage of the drug(s) as part of their therapeutic follow-up is available. The study of genetic polymorphisms will be carried out from available blood samples, collected and stored as part of therapeutic follow-up of patients. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03196466
Study type Observational
Source Assistance Publique - Hôpitaux de Paris
Contact Jean-Marc TRELUYER, MD, PhD
Phone 01 58 41 28 84
Email jean-marc.treluyer@aphp.fr
Status Recruiting
Phase
Start date June 19, 2017
Completion date June 19, 2026

See also
  Status Clinical Trial Phase
Completed NCT04595513 - Stopping TSC Onset and Progression 2: Epilepsy Prevention in TSC Infants Phase 1/Phase 2
Completed NCT02909387 - Adapting Project UPLIFT for Blacks in Georgia N/A
Completed NCT05552924 - Self Acupressure on Fatigue and Sleep Quality in Epilepsy Patients N/A
Terminated NCT01668654 - Long-term, Open-label Safety Extension Study of Retigabine/Ezogabine in Pediatric Subjects (>= 12 Years Old) With POS or LGS Phase 3
Not yet recruiting NCT05068323 - Impact of Interictal Epileptiform Activity on Some Cognitive Domains in Newly Diagnosed Epileptic Patients N/A
Completed NCT03994718 - Creative Arts II Study N/A
Recruiting NCT04076449 - Quantitative Susceptibility Biomarker and Brain Structural Property for Cerebral Cavernous Malformation Related Epilepsy
Completed NCT00782249 - Trial Comparing Different Stimulation Paradigms in Patients Treated With Vagus Nerve Stimulation for Refractory Epilepsy N/A
Completed NCT03683381 - App-based Intervention for Treating Insomnia Among Patients With Epilepsy N/A
Recruiting NCT05101161 - Neurofeedback Using Implanted Deep Brain Stimulation Electrodes N/A
Active, not recruiting NCT06034353 - Impact of Pharmacist-led Cognitive Behavioral Intervention on Adherence and Quality of Life of Epileptic Patients N/A
Recruiting NCT05769933 - Bridging Gaps in the Neuroimaging Puzzle: New Ways to Image Brain Anatomy and Function in Health and Disease Using Electroencephalography and 7 Tesla Magnetic Resonance Imaging
Not yet recruiting NCT06408428 - Glioma Intraoperative MicroElectroCorticoGraphy N/A
Not yet recruiting NCT05559060 - Comorbidities of Epilepsy(Cognitive and Psychiatric Dysfunction)
Completed NCT02646631 - Behavioral and Educational Tools to Improve Epilepsy Care N/A
Completed NCT02977208 - Impact of Polymorphisms of OCT2 and OCTN1 on the Kinetic Disposition of Gabapentin in Patients Undergoing Chronic Use Phase 4
Completed NCT02952456 - Phenomenological Approach of Epilepsy in Patients With Epilepsy
Recruiting NCT02539134 - TAK-935 Multiple Rising Dose Study in Healthy Participants Phase 1
Completed NCT02491073 - Study to Evaluate Serum Free Thyroxine (FT4) and Free Triiodothyronine (FT3) Measurements for Subjects Treated With Eslicarbazeine Acetate (ESL) N/A
Terminated NCT02757547 - Transcranial Magnetic Stimulation for Epilepsy N/A