Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06050603 |
| Other study ID # |
SUN-5474 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
September 2023 |
| Est. completion date |
July 2027 |
Study information
| Verified date |
September 2023 |
| Source |
Sunnybrook Health Sciences Centre |
| Contact |
Fa-Hsuan Lin, PhD |
| Phone |
416-480-6100 |
| Email |
fhlin[@]sri.utoronto.ca |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The goal of this interventional study is to develop an individualized approach using
transcranial magnetic stimulation (TMS) in a high-precision manner. This approach will use
TMS to modulate brain activity at multiple locations simultaneously. Functional magnetic
resonance imaging (fMRI) and electroencephalograph (EEG) will record the responses and guide
the stimulation. Specifically, the placement and orientation of TMS coils will be tailored to
stimulate the targeted functional brain areas informed by fMRI. To maximize the
interventional effect, stimulation pulses will be delivered based on EEG oscillations.
Description:
Background:
Transcranial magnetic stimulation (TMS) is a non-invasive technique that uses a transient
electromagnetic field over a small area of the scalp to alter neuronal activity. It has been
approved by Health Canada for the treatment of major depressive disorder and
obsessive-compulsive disorder. Despite its clinical prevalence, TMS has a response rate of
less than 50% and high intra- and inter-subject variability. Even among healthy subjects, the
probability of inducing neuro-modulatory effects can be as low as 50%.
Design:
Depending on the study's aims, participants will have to visit Sunnybrook Health Sciences
Centre two or three times on separate days. Participants will be screened with a medical
record review before their first visit.
In the first visit, participants will have a magnetic resonance imaging (MRI) session. During
the MRI session, participants will be brought inside an MRI scanner to collect images,
including structural and functional MRI scans. During structural scans, participants will be
asked to stay inside the MRI while images are taken. During functional MRI scans,
participants will be asked to take rests with eyes open, watching and/or listening to
audiovisual stimuli, and respond to stimuli by button pressing. Before starting MRI scans, a
short training on the task will be taken. An additional assessment and, if necessary,
training sessions will be conducted to ensure that participants undergo imaging while being
able to keep their heads sufficiently for acceptable fMRI data quality. Before entering the
MRI room, participants will be asked to remove any metal or magnetic sensitive objects (e.g.,
jewelry, keys, credit cards) to ensure safety. Earplugs or earphones will be provided to
participants to reduce the loud noise produced by the MRI scanner. During the MRI scans,
participants will perform the same task as notified in the training session. Short breaks
will be arranged between tasks. The entire MRI procedure will take approximately one hour. If
electroencephalograph (EEG) is to be recorded during MRI scans, an additional one hour is
needed for EEG preparation before the MRI scans. After MRI scans, participants may be asked
to rate their feelings toward the audiovisual stimuli, cognitive states, and emotional states
on a computer.
Participants will be asked to attend TMS-MRI experiments twice on separate days for aim 1. In
the TMS-MRI session, participants will take TMS and MRI separately. For TMS, participants
will be led to a treatment room and seated in a comfortable chair in a slightly reclined
position. A research staff will place an electromagnetic coil softly against each
participant's head. A TMS coil will painlessly deliver magnetic pulses stimulating nerve
cells at predetermined intervals. Electrodes may be mounted on the participants' wrists and
around the eyes to monitor muscle activities. The treatment protocol for each participant
will be based on his/her MRI scans, EEG signals, or motor responses. This step may be helped
by using a camera. During TMS, participants will hear clicking sounds generated by the TMS
coil and may have touching or twitching senses over their faces. After TMS, participants will
be brought to an MRI room for MRI scans as described above. A rating of the participant's
feelings and task performance may be taken after MRI scans.
For aims 2 and 3, participants will be asked to attend a TMS-EEG-MRI experiment once. In the
TMS-EEG-MRI session, participants will first undergo TMS and EEG together. Then, participants
will undergo an MRI. For TMS-EEG, participants will be led to a treatment room and seated in
a comfortable chair in a slightly reclined position. Each participant will be asked to wear
an EEG cap. A device is then used to measure the EEG electrode locations over the cap. Then,
conductive gel will be applied to EEG electrodes over the cap. Participants may feel skin
scratching when the research staffs apply the conductive gel. Additional electrodes will be
attached around the participants' eyes and wrists to monitor muscle movement. During TMS, a
research staff will place an electromagnetic coil softly against the participant's head. A
TMS coil will painlessly deliver magnetic pulses that stimulate nerve cells. The
investigators will determine the treatment protocol based on each participant's MRI scans,
EEG signals, or motor responses. This step may be helped by using a camera. During TMS,
participants will hear clicking sounds generated by the TMS coil and may have touching or
twitching senses over their faces. After TMS, participants will be brought to an MRI room for
MRI scans as described above. A rating of the participants' feelings and task performance may
be taken after MRI scans.
