Reorganization of Brain Functions in Patients With Cervical Myelopathy Using fMRI and MRS

Lawson Health Research Institute

Status

Completed

Conditions

Spinal Cord Diseases

Treatments

Procedure: fMRI and MRS scan

Procedure: Decompressive cervical spine surgery

Study type

Observational

Funder types

Other

Identifiers

NCT00447343

09994

R-04-022

Details and patient eligibility

About

Decompressive surgery to relieve symptoms of spinal cord compression due to dysfunction, such as arthritis, has proved variable in success. Past research has reported that approximately one-third of surgery patients improved, one-third remained the same and one-third worsened. Currently, there are no reliable tests that can predict the outcome following surgery. We are hoping that this study will change that.

Using functional MRI (fMRI), we wish to investigate the relationship between clinical symptoms and the recovery of brain activation following surgery. One can also track the concentrations of different chemicals (metabolites) by using magnetic resonance spectroscopy (MRS). We hypothesize that the recovery of normal brain activation patterns will coincide with clinical improvement. Our objective in this study is to explore the potential role of fMRI as a tool to prognose patients with cervical myelopathy.

Twenty-five patients with cervical myelopathy will be imaged using a high-powered (3 Tesla) fMRI scanner before and six months following surgery. In addition, ten healthy controls will be imaged to provide a baseline measure. Both the patient and control groups will complete questionnaires at the time of their scans. These will provide information concerning the subjective experience of the individuals throughout recovery. We will compare brain activation patterns of control and patient groups to investigate how the brain heals following decompressive surgery.

Full description

Degenerative arthritis is a universal concomitant of human aging, affecting 51% of the adult population. Arthritis of the spine is the most common cause of acquired spinal cord dysfunction and can manifest in subtle symptoms, such as diminished balance and dexterity, or profound symptoms, such as paralysis and incontinence. In cases where dysfunction results in severe spinal cord compression, surgery is performed. However, surgical outcomes are not always beneficial. Past research has reported that approximately one-third of surgery patients improved, one-third remained the same and one-third worsened. Currently, there are no reliable tests that can predict outcome following surgery. We are hoping that this study will change that.

Twenty-five patients will undergo 45 minute imaging sessions pre-operatively and six months post-operatively. Ten controls will undergo 45 minute imaging sessions twice to provide a baseline comparison and reproducibility. During each session, one motor task (finger tapping) and 1 sensory task (hand brushing) will be performed for 2 minutes at 10 second intervals. We wish to compare the change in volume extent, and location, and intensity of brain activation levels before and after surgery. We will also compare fMRI signal response differences between controls and patients. We hypothesize that the degree to which brain activation shifts towards normalcy (that of controls) will correlate with the degree of neurological recovery postoperatively.

Data will be analyzed using software developed at the Robarts Research Institute.

Enrollment

35 patients

Sex

All

Ages

18 to 75 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

All Participants will be
1. between 18 and 75 years of age
2. right handed
3. with normal/corrected hearing and vision
4. native speakers of Canadian or American English
5. must be competent to give consent.
Cervical Myelopathy Patients will be:
1. Undergoing a first time cervical decompression for cervical spondylosis causing myelopathy secondary to spinal cord compression which is documented by a diagnostic procedure ( CT and/or MRI ).
2. Spinal cord compression from the cervicomedullary junction to the C7-T1 disc level.
3. Ability and willingness to participate in a follow-up fMRI study at 6 months following surgery.
Healthy Control Volunteers will be:
1. Volunteers from the Dept. of Clinical Neurological Sciences

Exclusion criteria

Cervical Myelopathy Patients must not:
1. have any pre-existing medical conditions (e.g. significant renal or hepatic disease)
Healthy control volunteers must not:
1. have a pre-existing diagnosis or history of a neurological disorder.
All participants must not:
1. have any potential magnetic metal fragments in their body except for titanium implants placed at the time of surgery will be excluded. Dental work is non-magnetic and does not require participant exclusion.
Participants who fall into the following categories will not be tested in the 4T scanner:
1. claustrophobia
2. pacemaker or other electronic implants
3. being a welder or soldier
4. having been injured by a metallic object that was not removed
5. being pregnant or trying to conceive
6. women of childbearing potential who are not using an effective method of contraception
7. cerebral aneurysm clips.

Trial design

35 participants in 2 patient groups

Treatment group

Description:

Patients with cervical myelopathy undergoing decompressive cervical spine surgery will have two scans (pre-operatively and 6 months post-operatively). A blinded investigator will administer questionnaires at each time point.

Treatment:

Procedure: Decompressive cervical spine surgery

Procedure: fMRI and MRS scan

Control group

Description:

Healthy Volunteers will have two scans 6 months apart. A blinded investigator will administer questionnaires at each time point.

Treatment:

Procedure: fMRI and MRS scan

Trial contacts and locations

Data sourced from clinicaltrials.gov

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