Epilepsy Clinical Trial
Official title:
Non-Invasive Seizure Localization in Patients With Medically Refractory Localization Related Epilepsy: Synchronized MEG-EEG Recordings
This study will evaluate the magnetoencephalography (MEG) alone and together with
electroencephalography (EEG) in non-invasive presurgical evaluation. It will look at the
contribution of those methods in determining the location of the epilepsy seizure, compared
with doing so through an invasive method. EEG measures electronic potential differences on
the scalp. On the other hand, MEG is a non-invasive technique for recording the activity of
neurons in the brain, through recording of magnetic fields caused by synchronized neural
currents. It has the ability to detect seizures. Because magnetic signals of the brain vary,
this technique must balance two key problems: weakness of the signal and strength of the
noise. The EEG is sensitive to extra-cellular volume currents, whereas the MEG primarily
registers intra-cellular currents. Because electrical fields are quite dependent on the
conductive properties of the tissues, and magnetic fields are significantly less distorted by
tissue, the MEG has better spatial resolution. There is a great deal of evidence that EEG and
MEG provide complementary data about underlying currents of ions.
Patients 18 years of age or older who have epilepsy that is not relieved, and who are
considered candidates for surgery and who accept epilepsy surgery, may be eligible for this
study.
Before they have surgery, participants will either sit or lie down, with their head in a
helmet covering the entire head, with openings for the eyes and ears. Brain magnetic fields
will be recorded with a 275-channel OMEGA system. Throughout the session, visual and two-way
audio communication will be maintained with the patient. Acquiring data from the participant
will be conducted during several sessions, each lasting from 10 to 60 minutes, not exceeding
a total of 120 minutes. If the first recording is not of sufficient quality, the patient may
have it repeated once or twice.
Those participants who are found to have a clear seizure focus will proceed directly to
surgery that is part of their treatment. Those whose seizure focus is ambiguous will proceed
to invasive monitoring.
Participants will be followed in the outpatient clinic at intervals of 1, 3, 6, and 12
months. They may periodically undergo reimaging as considered appropriate.
Objective:
We will use magnetoencephalography (MEG) alone, and in combination with EEG (MEG-EEG), to
study the contribution of each method and their combination to the localizing yield of the
non-invasive pre-surgical evaluation as compared to the invasive method. We will also
correlate seizure origin and localizing data with surgical outcome, and, in retrospect,
calculate the proportion of patients in whom invasive monitoring could have been avoided.
Study Population:
Participants in this study will be patients with medically refractory localization-related
epilepsy who will be undergoing epilepsy surgery as part of their standard clinical care.
Study Design/Methods:
We will use a 275-channel whole-head MEG System (CTF Systems 2001 Inc). Patients will undergo
a supine resting MEG-EEG recording prior to any surgical procedure. The resulting data will
be integrated with the data obtained during the patient's standard pre-surgical evaluation,
and compared with the invasive data obtained during chronic invasive monitoring (if
clinically indicated), and/or intra-operative electrocorticography (all patients-standard of
care). When analyzing the data, readers will be blinded to the results of the other modality
(MEG vs. EEG, non-invasive vs. invasive).
The patients will be followed in the outpatient clinic at 1-, 3-, 6- and 12-month intervals.
Surgical outcomes will be graded according to the Engel and International League Against
Epilepsy (ILAE) outcome scales.
The findings from this protocol will not in themselves indicate or lead to epilepsy surgery.
Outcomes:
The primary outcome measure will be the proportion of seizure foci detected and delineated
both non-invasively and invasively. The secondary outcome measures will be the proportion of
patients with seizure foci co-localized invasively and non-invasively, the correlation of the
obtained localizing data from both modalities with surgical outcome, and the correlation
between the anatomical location of the epileptogenic zone and surgical outcome.
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