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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06321822
Other study ID # EPIEXOME
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date August 2, 2021
Est. completion date December 31, 2026

Study information

Verified date March 2024
Source Fondazione IRCCS Ca' Granda, Ospedale Maggiore Policlinico
Contact Federica Massacesi
Phone +390255032982
Email federica.massacesi@policlinico.mi.it
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Background Epilepsy is a common neurological disorder. It affects 50 million people worldwide and has the highest incidence in pediatric age. According to the latest classification of the ILAE (International League against Epilepsy), epilepsies are divided into lesional (symptomatic) and non-lesional/genetic forms. Symptomatic causes of epilepsy may include scarring, tumors, strokes, and brain developmental disorders such as dysplasias. In approximately 30% of epilepsies a genetic cause of epilepsy can be hypothesized. Since the identification of the first epilepsy gene in 1995, over the next 25 years over 500 genes associated with epilepsy have been identified. The importance of many genes and many gene variants identified in many genes is not yet clear and the mutations identified in different genes require confirmation with functional studies and confirmation on larger series of patients. Furthermore, the genetic defect underlying many patients with epilepsy remains unknown to this day, despite a high level of gene sequencing effort. Molecular studies on these genes have demonstrated how pathogenic variants on these genes determine a protein dysfunction that can cause neuronal hyperexcitability and pathological synchronization of neuronal networks leading to epileptic seizures and brain dysfunction. A notable complication in the field of epilepsy genetics is represented by the fact that the concept of a gene/a disease is valid only in a few cases, as there is a high phenotypic and genotypic heterogeneity so that a gene can present different types of epilepsy even within the same family. This means that there is a complex multigenic and multifactorial genetic substrate for which the impact of a specific genetic variant is conditioned by variants of other genes. This concept is particularly valid for the most common epileptic forms such as idiopathic generalized epilepsies. The integration of genetic analysis with epileptological characterization in clinical practice is increasingly crucial in defining a clear molecular diagnosis in patients whose disease cause would otherwise remain unknown, and potentially allows avoiding other unnecessary diagnostic investigations. It is therefore expected that this will lead to optimizing clinical management and reducing overall costs over time. The genetic finding can constitute a useful biomarker for defining the outcome of the disease and for guiding clinical decisions such as the best choice of therapy. Despite the advantages, before starting the genetic testing process, patients and their family members should be informed about the ethical issues that may arise from genetic testing, the technical limitations, legal aspects and costs of genetic investigation. Aim of the study Characterization of patients with epilepsy recruited at the Hospital Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico in Milan (Italy) and analysis with exome NGS sequencing of patients with the highest probability of genetic diagnosis with exome (use of a probability score) Endpoints of study are the following: 1. Identification of the genetic cause of the forms of genetic epilepsies with the highest probability of molecular diagnosis with exome 2. Clinical-instrumental and epileptological characterization according to the ILAE classification of patients with epilepsy followed at the Fondazione IRCCS Ca' Granda Fondazione Ospedale Maggiore Policlinico 3. Correlation of clinical and instrumental parameters (in particular EEG and neuropsychological) of epilepsy recorded on the database with etiology, outcome and response to therapy


Description:

Study design Non-pharmacological (diagnostic) interventional, single-center, biological, observational, prospective Interventions 1. Collection of clinical and instrumental data of patients with epilepsy at first outpatient visit (time 0) and at one-year follow-up: age, gender, education, age of onset of seizures, new diagnosis/check-up, type of seizure according to the ILAE classification, type of epilepsy according to the ILAE classification, frequency of epileptic seizures, etiology, for cases with a genetic/probably genetic etiology application of an ad hoc score to determine the probability of a positive outcome for exome research, neurological objectivity, presence of comorbidities, parameters of EEG background activity, parameters relating to interictal EEG anomalies, parameters relating to critical EEG anomalies, magnetic resonance parameters, therapies used, effectiveness of therapies used, side effects of therapies, duration of therapy, dosages of therapy, neuropsychological and psychological outcome (score on standard tests/questionnaires administered according to age as required by the standard of care), functional outcome expressed with the modified Rankin scale; clinical and instrumental data will also be collected for sick or healthy parents of patients with epilepsy who will be identified for the exome analysis of the trio (proband + parents) during the recruitment phase (not at follow-up), while they will not be collected sensitive data relating to the parents of patients who did not undergo an exome (observational part of the study). 2. Qualitative evaluation of the EEG according to the ACNS guidelines and whenever possible through quantitative analysis of the EEG parameters at time 0 and at 1 year follow up. In the quantitative analysis, ad hoc algorithms will be used to extract the temporal and frequency domain characteristics of the EEG traces. 3. Sequencing and analysis of the exome of at least 30 patients and their natural parents (plus any other first-degree relatives affected by epilepsy or genetic condition related to epilepsy) for a total of at least 90 exomes. With the exception of WES sequencing, the other diagnostic-evaluative procedures are part of the normal clinical management of patients. Genotype-phenotype correlations The WES will be evaluated in relation to the clinical picture on the basis of a close collaboration between clinicians (neurologists), biologists, geneticists, bioinformatics involved in the project. The acquired data will also be used to define the risk of recurrence, prognosis, monitoring of complications and identification of possible targeted treatments.


Recruitment information / eligibility

Status Recruiting
Enrollment 500
Est. completion date December 31, 2026
Est. primary completion date August 2, 2025
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group N/A and older
Eligibility Inclusion Criteria: Study population: patients with epilepsy. Patients who meet all of the following criteria will be included: - Patients both minors and adults diagnosed with epilepsy; - of both sexes; - followed at the pediatric and adult epilepsy and electroencephalography clinics of the U.O.C. Neurophysiopathology - IRCCS Ca' Granda Fondazione Ospedale Maggiore Policlinico; - Informed consent of the patient if an adult and capable of providing consent independently or of the parents or legal guardians in the case of a minor/individual not capable of providing consent independently. Inclusion criteria for exome candidate patients: - Availability of DNA samples from the patient and both natural parents; - Prediction of high positive genetic diagnosis Patients diagnosed with epilepsy will be recruited among those followed at the pediatric and adult epilepsy and electroencephalography clinics of the U.O.C. Neurophysiopathology - Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico, after signing the consent. Exclusion Criteria: - Patients who possess at least one of the following criteria will be excluded: - Patients arriving for evaluation with the initial suspicion of epilepsy who during the diagnostic work-up were found to be suffering from a different pathology; - Patients who have refused consent to participate in the study.

Study Design


Related Conditions & MeSH terms


Intervention

Diagnostic Test:
Whole exome sequencing (WES)
Patient selected for genetic study will undergo blood sample collection for DNA estraction, biobank storage and WES study

Locations

Country Name City State
Italy Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico Milano

Sponsors (1)

Lead Sponsor Collaborator
Fondazione IRCCS Ca' Granda, Ospedale Maggiore Policlinico

Country where clinical trial is conducted

Italy, 

Outcome

Type Measure Description Time frame Safety issue
Primary Identification of the genetic cause in patients with clinically probable genetic epilepsy using WES Identification of the genetic cause of patients with forms of epilepsy with a high probability using of genetic etiology, selected from the cohort of epileptic patients followed at Fondazione IRCCS Ca' Ospedale Maggiore Policlinico, using WES 1 year after enrollment
Secondary Clinical and epileptological characterization of patients with epilepsy according to ILAE seizure and epilepsy classification Clinical and epileptological characterization according to the ILAE classification of the population of patients with epilepsy followed at the IRCCS Ca' Ospedale Maggiore Policlinico Foundation 1 year after enrollment
Secondary Characterization of qualitative Electroencefagraphy (EEG) features of patients with the different epilepsy types Electroencephalographic evaluation of EEG traces of patients with the different epilepsy types a structured qualitative EEG evaluation performed by a trained clinical neurophysiologist 1 year after enrollment
Secondary Quantitative EEG (qEEG) characterization of patients with the different epilepsy types Analysis of EEG traces of patients with the different epilepsy types using the tools of Quantitative EEG (aEEG), as Power spectrum analyses, by a trained EEG signal Engineer 3 year after enrollment
Secondary Characterization of the clinical and instrumental features of patients with specific genetic etiology Characterization of the clinical and instrumental features of patients with specific genetic etiology by a trained epileptologist 1 year after enrollment
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