Improving Lesion Detection in Children With Magnetic Resonance Imaging (MRI)-Negative Partial Epilepsy Using Diffusion Tensor Imaging
Recruitment status was Active, not recruiting
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Purpose
Focal cortical dysplasia is one of the most common lesions responsible for medically refractory epilepsy in the pediatric population. In patients with medically intractable epilepsy, surgery is the only treatment that will lead to seizure freedom. The outcome of epilepsy surgery is worse in patients when there is no lesion identified on routine structural MRI, also known as MRI-negative partial epilepsy. Diffusion tensor imaging (DTI), a novel MRI technique, can be used to evaluate the integrity of the microstructure of the white matter, even when the white matter appears normal on routine MRI.
| Condition | Intervention |
|---|---|
|
Localization-Related Epilepsy Partial Epilepsy |
Procedure: Diffusion Tensor Imaging (DTI) Procedure: Magnetoencephalography |
| Study Type: | Observational |
| Study Design: | Observational Model: Cohort Time Perspective: Cross-Sectional |
| Official Title: | Improving Lesion Detection in Children With MRI-Negative Partial Epilepsy Using Diffusion Tensor Imaging |
- Identify DTI changes in the white matter of children with MRI-negative partial epilepsy and MRI-visible FCD using voxel-by-voxel analysis of FA and MD maps compared to normal controls. [ Designated as safety issue: No ]
- Determine if the lobar location of abnormal FA and MD correlate with the lobar location of MEG defined epileptogenic zone in MRI-negative partial epilepsy and MRI-visible FCD. [ Designated as safety issue: No ]
| Estimated Enrollment: | 64 |
| Study Start Date: | May 2009 |
| Estimated Study Completion Date: | May 2012 |
| Estimated Primary Completion Date: | May 2012 (Final data collection date for primary outcome measure) |
| Groups/Cohorts | Assigned Interventions |
|---|---|
|
1
12 children with MRI-negative partial epilepsy who are being worked-up for epilepsy surgery
|
Procedure: Diffusion Tensor Imaging (DTI)
MR and DTI: MRI and DTI will be done using 3.0T Philips MR scanner (Philips Medical Systems, Best, The Netherlands) using an eight channel head coil. DTI and axial 3D T1 will be performed on patients and controls.
MEG will be performed using a whole-head Omega 151-channel gradiometer system (VSM MedTech, Port Coquitalam, BC, Canada). At least 15 2-minute periods of spontaneous data will be recorded with a sampling rate for data acquisition of 625Hz, a bandpass filter of 10 to 70 Hz and a notch filter of 60 Hz.
Other Name: MEG
|
|
2
12 children with MRI-visible FCD who are being worked-up for epilepsy surgery
|
Procedure: Diffusion Tensor Imaging (DTI)
MR and DTI: MRI and DTI will be done using 3.0T Philips MR scanner (Philips Medical Systems, Best, The Netherlands) using an eight channel head coil. DTI and axial 3D T1 will be performed on patients and controls.
MEG will be performed using a whole-head Omega 151-channel gradiometer system (VSM MedTech, Port Coquitalam, BC, Canada). At least 15 2-minute periods of spontaneous data will be recorded with a sampling rate for data acquisition of 625Hz, a bandpass filter of 10 to 70 Hz and a notch filter of 60 Hz.
Other Name: MEG
|
|
3
Control Group- Healthy Volunteers
|
Procedure: Diffusion Tensor Imaging (DTI)
MR and DTI: MRI and DTI will be done using 3.0T Philips MR scanner (Philips Medical Systems, Best, The Netherlands) using an eight channel head coil. DTI and axial 3D T1 will be performed on patients and controls.
|
Detailed Description:
The aims of this study are firstly to identify DTI abnormalities in the white matter of children with MRI-negative partial epilepsy and MRI-visible FCD compared to normal controls; and secondly to determine if the location of DTI identified abnormalities correlate with the epileptogenic zone as defined using magnetoencephalography (MEG) dipole clusters. Our hypotheses are firstly DTI can demonstrate the anatomic delineation of white matter abnormalities in MRI-negative partial epilepsy and the alteration in DTI indices are similar in MRI-negative partial epilepsy and MRI-visible FCD, which is the positive control; and secondly the anatomical location of DTI identified abnormalities correlate with the epileptogenic zone as defined by MEG dipole clusters. The long-term goal of this study is to improve detection of subtle lesions in children with MRI-negative partial epilepsy so as to improve the surgical outcome of these patients who undergo epilepsy surgery for seizure control.
Eligibility| Ages Eligible for Study: | 6 Years to 18 Years |
| Genders Eligible for Study: | Both |
| Accepts Healthy Volunteers: | Yes |
| Sampling Method: | Non-Probability Sample |
Patients will be identified from the epilepsy clinic and seizure rounds and who have had previous MRI in an outside institution or prior MRI at least two years ago at the Hospital for Sick Children.
Control children will be recruited through hospital publications and from families participating in the study (healthy siblings)
Inclusion Criteria:
MRI negative partial epilepsy group:
- Patients diagnosed with partial epilepsy according to the International League Against Epilepsy (ILAE) standard [53]
- MRI study reported as normal
- Age ranging from 6-18 years (DTI indices alter with myelination and the changes are most marked from birth to 4 years of age)
MRI-visible FCD group:
- Patients diagnosed with partial epilepsy according to the ILAE standard [53]
Visual assessment of MRI demonstrates one or more features of FCD
- Cortical thickening
- Alteration in sulci and gyri pattern, including deep sulci
- Blurring of gray-white matter transition
- T2 signal prolongation of the cortex and subcortical white matter
- High T1 signal in the cortex
- Age ranging from 6-18 years (DTI indices alter with myelination and the changes are most marked from birth to 4 years of age)
Normal controls:
- Subjects with no history of neurological diseases
- Age ranging from 6-18 years (most children under the age of 6 years are unable to tolerate the MR examination without general anesthesia or sedation).
- No requirement of general anesthesia or sedation
Exclusion Criteria:
- Subjects with contraindications for MR imaging (i.e. retained foreign bodies, implants)
- Subjects with claustrophobia
- Controls with a prior history of traumatic brain injury, neurological disorder, cerebral palsy, developmental delay or learning disability
- Controls who require general anesthesia or sedation
Contacts and Locations| Canada, Ontario | |
| The Hospital for Sick Children | |
| Toronto, Ontario, Canada | |
| Principal Investigator: | Elysa Widjaja, MD | The Hospital for Sick Children |
More Information
No publications provided
| Responsible Party: | Dr. Elysa Widjaja/ Principal Investigator, The Hospital for Sick Children |
| ClinicalTrials.gov Identifier: | NCT00894478 History of Changes |
| Other Study ID Numbers: | 1000013137 |
| Study First Received: | May 6, 2009 |
| Last Updated: | May 6, 2009 |
| Health Authority: | Canada: Ethics Review Committee |
Keywords provided by The Hospital for Sick Children:
|
MRI-Negative Diffusion tensor imaging Localization-related epilepsy Partial Epilepsy Children |
Additional relevant MeSH terms:
|
Epilepsy Epilepsies, Partial Brain Diseases Central Nervous System Diseases Nervous System Diseases |
ClinicalTrials.gov processed this record on May 16, 2013