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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT04383028
Other study ID # 19NI10
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date July 1, 2020
Est. completion date May 30, 2022

Study information

Verified date November 2021
Source Great Ormond Street Hospital for Children NHS Foundation Trust
Contact Aswin Chari, MRCS
Phone +447726780817
Email aswin.chari@gosh.nhs.uk
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Epilepsy is a disorder of the brain which is associated with disabling seizures and affects 100,000 people under 25. Many children with epilepsy also have a learning disability or problems with development. Although better outcomes occur in children who are successfully treated early for their epilepsy, 25% continue to have seizures despite best medical treatment. One potential treatment is a neurosurgical operation to remove parts of the brain that generate seizures. A proportion of these children have electrodes inserted into their brains as part of their clinical assessment, termed stereoelectroencephalography (SEEG), to help localise these regions. Subsequent surgery is not always successful - up to 40% of children will have ongoing seizures 5 years after surgery. The planning of where to place SEEG electrodes relies on experts (neurologists, neurophysiologists and neurosurgeons) using information from multiple sources, which are used to generate hypotheses about where the seizures are coming from. The main components are the patient's magnetic resonance imaging (MRI) scan and video-electroencephalography (EEG) recordings during seizures. Using this information, between 5-18 electrodes are implanted and the recordings continue for 5-15 days in hospital. A focus is identified in about 75% of cases which means that the focus is sometimes missed. This prospective single arm pilot study aims to assess a new automated lesion detection algorithm, MELD, designed to identify focal cortical dysplasias (the most common pathology associated with focal epilepsy in children) on otherwise 'normal' MRI scans. The investigators will assess whether MELD can be used to improve the targeting of abnormalities in children undergoing SEEG recording at Great Ormond Street Hospital


Description:

Epilepsy is a disorder of the brain that is associated with disabling seizures. It affects 100,000 children in the UK, 25-30% of whom will be classed as drug resistant.3 In these children, there is increasing evidence that resective epilepsy surgery in appropriate candidates can lead to seizure freedom and improve quality of life and cognitive outcomes.4-6 However, about 30% of children do not achieve seizure freedom following epilepsy surgery and data suggests that these figures are not improving over time despite increasing use of intracranial evaluation via stereoelectroencephalography (SEEG). 7 The planning of where to place SEEG electrodes currently relies on an expert multidisciplinary team consisting of neurologists, neurophysiologists and neurosurgeons. Information from multiple sources, mainly the patient's magnetic resonance imaging (MRI) scan and video-electroencephalography (EEG) recording, are used to generate hypotheses about the location of the clinical seizure onset zone (SOZ). Using this information, between 5-18 electrodes are implanted and the recordings continue for 5-15 days in hospital. In a retrospective review of 75 SEEG cases, a focus was identified in about 77% of cases which means that the focus is sometimes missed. This prospective single arm pilot study to aims assess a new automated lesion detection algorithm, MELD, designed to identify focal cortical dysplasias (the most common pathology associated with focal epilepsy in children) on otherwise 'normal' MRI scans.1 This algorithm was developed in-house by collaborators in this grant application. In our subsequent retrospective study of 34 SEEG patients, the algorithm colocalised with the SEEG-defined SOZ in 62% of all patients with a cortical SOZ and 86% of all patients with a histologically confirmed focal cortical dysplasia.2 Importantly, there were 3 patients whose SOZ was thought to be missed on SEEG who had MELD-identified lesions that were not implanted. In order to improve the algorithm, investigators have subsequently launched an international multicentre collaboration (https://meldproject.github.io//) to increase the number of lesion positive and control scans available to train the algorithm, improving its sensitivity, specificity and accuracy. This project has gathered over 550 lesional and 350 control scans, which will be used to train the algorithm. The prospective MAST Trial is therefore the ideal next step in the evaluating the utility of the MELD algorithm in identifying abnormal areas of the brain that could be responsible for seizures.


Recruitment information / eligibility

Status Recruiting
Enrollment 20
Est. completion date May 30, 2022
Est. primary completion date April 30, 2022
Accepts healthy volunteers No
Gender All
Age group 3 Years to 18 Years
Eligibility Inclusion Criteria: - Patients aged 3-18 undergoing SEEG recording as part of the investigation of their epilepsy at Great Ormond Street Hospital for Children. Exclusion Criteria: - Tuberous sclerosis - Prior resective epilepsy surgery - Insufficient imaging datasets for the algorithm - Lack of informed consent

Study Design


Intervention

Procedure:
MELD algorithm use to aid in the planning of SEEG electrode trajectories
During the routine SEEG planning meetings, the planning of SEEG trajectories, including the number and location of electrodes, will follow the usual clinical pathway and be planned according to the expertise of the attending neurosurgeon, neurophysiologist and neurologist at the multidisciplinary team meeting. Once the trajectories have been planned, anonymised scans for each patient (linked to them via a unique study ID) will be run through the MELD classifier and the top 3 MELD identified lesion clusters will be considered for further implantation. These top 3 MELD classifier identified clusters will then be merged with the existing clinical plan to assess if each of the clusters are already being sampled by an SEEG electrode. If there is already an electrode in each lesion, no adjustments will be made. If there are clusters that are not being recorded from, and it is technically possible, extra electrodes (up to 3) will be added to record from these additional locations.

Locations

Country Name City State
United Kingdom Great Ormond Street Hospital NHS Foundation Trust London

Sponsors (1)

Lead Sponsor Collaborator
Great Ormond Street Hospital for Children NHS Foundation Trust

Country where clinical trial is conducted

United Kingdom, 

Outcome

Type Measure Description Time frame Safety issue
Primary Additional contacts in neurophysiologically defined seizure onset zone For each patient, the investigators will assess whether any of the additional electrodes (added as part of the trial to record from detected lesions) were in the neurophysiologically (SEEG) defined seizure onset zone. This will be a dichotomous yes/no outcome for each patient. Baseline (During inpatient admission)
Secondary Pre-implantation confidence Pre-implantation confidence of the MDT members in identifying a seizure onset zone (prior to MELD information) ie. a measure of the difficulty of the SEEG exploration on Likert scale 0-10 Baseline (During inpatient admission)
Secondary Number of electrodes added Simple number Baseline (During inpatient admission)
Secondary Number of electrodes added Number of electrodes already in identified lesions Baseline (During inpatient admission)
Secondary Was a MELD-identified lesion part of the SOZ (and if so how many?) Yes/no and simple numerical outcome Baseline (During inpatient admission)
Secondary Would the SOZ have been identified without MELD? Yes/No outcome Baseline (During inpatient admission)
Secondary Blinded neurophysiological assessment of the SOZ contacts with and without additional electrodes Description of contacts in SOZ with and without additional electrodes Baseline (During inpatient admission)
Secondary Putative resection boundaries with and without the additional electrodes, to be modelled by a neurosurgeon ie. a measure of whether or not this would have changed subsequent surgical strategy Description of resection and how it may have changes Baseline (During inpatient admission)
Secondary adverse events such as bleeding Safety of adding additional electrodes Baseline (During inpatient admission)
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