Enhanced MRI Imaging in Healthy Participants and Participants With Epilepsy

Hippocampal sclerosis is the most common pathological finding in temporal lobe epilepsy.

While CA1 and CA4 subregions are typically affected, considerable variability in the involvement of the different subregions has been recognized between patients with specific hippocampal subfield pathology being demonstrated to predict surgical outcomes in medically refractory patients. Developing novel imaging biomarkers for hippocampal subfield pathology that can be obtained in vivo has the potential to allow more accurate prediction of surgical outcomes prior to surgery.

A major challenge in studying hippocampal subregions is the small size of the structures which are often smaller than the resolution of conventional MRI techniques. Cerebral blood vessels can be visualized with MRI using a variety of methods, some which do not require MRI contrast and others that do. The advantage of non-contrast methods is that subjects do not require intravenous contrast injections while the disadvantage is that the non-contrast methods are not capable of visualizing smaller vessels.

Recently high-resolution vascular imaging of the hippocampus using ferumoxytol as an MRI contrast agent has been reported by researchers at Wayne State University. It is believed that this method would provide the detail required to address the hypothesis that the microvasculature of hippocampal subregions is disrupted in temporal lobe epilepsy.

OBJECTIVES

The Specific Aims of this study are:

Aim 1: Implement ferumoxytol enhanced MRI imaging of cerebral vasculature with similar quality as compared to work conducted at Wayne State University. Aim 2: Compare hippocampal microvasculature density of hippocampal subregions between participants with TLE and hippocampal sclerosis and control subjects.

HYPOTHESES

1. Successful acquisition of susceptibility weighted imaging (SWI) vascular imaging, with similar quality as compared to work conducted at Wayne State University, will be possible.
2. Participants with temporal lobe epilepsy and hippocampal sclerosis will demonstrate reduced microvasculature in hippocampal subfields that will correlate with previously reported regional MRI changes.

METHODS /DATA ANALYSIS

AIM 1:

10 control subjects will be scanned using the Wayne State University SWI acquisition protocol. Participants will receive ferumoxytol diluted with normal saline administered by a Registered Nurse using an MRI compatible IV infusion pump. Any adverse events during the infusion / scan will be documented and compared to previous ferumoxytol MRI safety data. Data quality will be assessed both qualitatively and quantitatively. Maps of the hippocampal microvasculature will be obtained and reviewed in order to confirm that the quality of the maps is comparable to the Wayne State University data. Fractional vessel density (FVD) of microvasculature, major arteries and major veins will be obtained, and comparisons will be made to ensure that the mean values and standard deviations are comparable.

AIM 2:

20 control subjects, and 20 participants with temporal lobe epilepsy and hippocampal sclerosis, will be studied. Participants will receive ferumoxytol diluted with normal saline administered by a Registered Nurse using a MRI compatible IV infusion pump. Any adverse events will be documented.

Microvasculature density of hippocampal subregions will be evaluated based on the same image analysis approach as the Wayne State University Group.