Stroke Clinical Trial
Official title:
Brain-Computer Interface-Assisted Motor Imagery for Gait Retraining in Neurorehabilitation
Currently the process for stroke recovery is slow with majority of its treatments focused
around physical therapy. Among the many methods employed to facilitate recovery in stroke,
the use of motor imagery (MI) training may be beneficial towards stroke rehabilitation.
In the current study, we propose 2 aims. Our first aim is to determine the feasibility and
efficacy of a novel brain-computer interface-assisted MI train program (BCI-MI) in patients
with chronic ischemic stroke. This is designed as a proof-of-concept study that only require
a single-session trial. If patients successfully activate the BCI-MI system without much
difficulty, our second aim is to enroll patients into a 4-week training program using the
BCI-MI. Both functional magnetic resonance imaging (fMRI) and transcranial magnetic
stimulation (TMS) will be done to determine the effects of the 4-week training program.
Subjects may potentially see improvements in walking gait as preliminary data from previous
studies have demonstrated positive results.
In the first study, we propose 20 subjects who have sustained their first ever haemorrhagic
or ischaemic subcortical stroke with lower limb impairment more than 9 months prior to study
enrollment. Subjects will be recruited from the existing patients on the study physician's
cohort of patients and from referrals from attending physicians. During the initial screening
visit, it will be ascertained that subject fulfills criteria for participation and informed
consent will be obtained by study staff. Subjects will be fully briefed in detail regarding
the experimental procedure, risk and benefits involved and their responsibilities during the
study.
Once consent is provided, subjects will undergo a MI-BCI usability session, they will be
seated comfortably in front of a computer screen. An EEG cap will be comfortably worn over
the head of the subject to record EEG traces of any activated cortical areas. Subjects will
then be instructed to perform a mental imagery task whereby they will imagine themselves
walking properly with their affected leg. The accuracies in classifying correct motor imagery
from the idle condition from EEG will be recorded for each subject. Subjects who obtain an
accuracy of more than 57.5% are considered eligible for the MI-BCI training program. Subjects
eligible for the MI-BCI training will then undergo a series of functional assessments,
including (1) functional clinical measures (10 meter walk test and Up-to-Go test), (2) gait
analysis , (3) cortical activity assessment using TMS, and (4) MRI and DTI scan. (5)
Psychological tests including Beck Depression Inventory, fatigue severity scale, digital span
test. Before the start of MI-BCI training, subjects will undergo one more MI-BCI session of
calibration, which will be performed totally the same with BCI usability session to gather
more valuable data for analyzing. After finishing all 5 assessments and MI-BCI calibration
session, the MI-BCI training can be started at the frequency of 3 times a week lasting for 4
weeks. The procedure of MI-BCI training is identical to the one in BCI usability session
except that a cartoon character in the computer screen will be activated to walk forward if
subjects successfully perform an accurate mental imagery. Subjects undergoing MI-BCI training
will be required to perform 160 trials of MI altogether with assigned rest periods (5 mins)
every 40 trials. Each session will last approximate 45 minutes excluding set-up time. The
number of times subjects can successfully perform the MI task and the ease in which they are
able to perform the task will be recorded. Distinct brain signals such as event-related
desynchronization or synchronization (ERD/ERS) are detectable on EEG for both real and
imagined motor movements in healthy subjects. Using this technique, MI-BCI, which translates
the imagination of movements into online commands, provides a promising neural communication
system for stroke patients who suffer from motor disabilities. We have previously
collaborated with I2R-A*STAR BCI to design a custom-built BCI software to sync with an EEG
amplifier. We have demonstrated the efficacy of this custom-built MI-BCI device on upper limb
stroke impairments, therefore, the procedure and equipment used will be kept identical except
for the software interface, which shows a cartoon character on the screen. Subjects will
undergo the same five assessments again at the end of the 4-week's MI-BCI training and 4-6
weeks after the last session of MI-BCI training, respectively, including (1) functional
clinical outcome measures (10 meter walk test and Up-to-Go test), (2) gait analysis, (3)
cortical activity assessment using TMS, and (4) MRI and DTI. (5) Psychological tests
including Beck Depression Inventory, fatigue severity scale, digital span test.
The timed up-and-go test is a measurement of mobility. It includes a number of tasks such as
standing from a seating position, walking, turning, stopping, and sitting down. For the test,
the person is asked to stand up from a standard chair and walk a distance of approximately 3
meters, turn around and walk back to the chair and sit down again. The 10 meter walk test is
a test of walking speed. Timed up-to-go test and 10 meter walk test will be assessed by
certified physical therapist or trained research staff, and will take approximate 30 minutes
including set-up time.
Gait analysis is the systematic study of locomotion. It will be performed in NUH, by a
certified medical technician or a trained research staff. Subjects will be required to wear
shorts and the whole trial process might be video-recorded for future analyzing the quality
of subjects' movement (face will not be captured and consent will be obtained in advance).
Markers might be worn at various points of reference of the body such as iliac spines of the
pelvis, ankle malleolus, and the condyles of the knee. Electromyography (EMG) sensors might
be worn at the area of quadriceps femoris,hamstring, gastrocnemius and tibialis anterior
muscles for both legs. Gait parameters of temporal and spatial measures and joint kinematics
will be recorded while the subject is walking along the walkway with a force platform,
according to the instruction of the medical technician or the trained research staff. Each
session will last approximate 1 hour including set-up time.
TMS will be performed to investigate the mechanisms of this training on cortical plasticity
as indexed by cortical excitability changes. For the MEP study, we will initially adjust TMS
intensity to achieve a baseline MEP in the tibialis anterior muscle of the leg to about 1 mV
peak-to-peak amplitude before intervention. Stimulation intensity will be kept constant for
each subject throughout the study. The MEPs will be recorded in a computer for off-line
analysis. We will record 10 MEPs for each time and average their peak-to-peak amplitude. For
the paired pulse stimulation, a first subthreshold conditioning stimulus will be applied,
followed at a variable interstimulus interval (ISI), by a second suprathreshold stimulus. We
will use the following ISIs - 2, 3, 4, 6, 9, 10, 12, 15 ms. The percentage of change for each
ISI before and after treatment will be calculated from the MEPs and will therefore important
to measure changes in intracortical facilitation and inhibition. Each session will last
approximate 1 hour including set-up time.
MRI/DTI scan will be performed at CIRC, NUS. Prior to the scan, all patients will be briefed
of the test procedure and safety aspects. A medically-trained physician will be on standby
throughout the procedure. All participants will be scanned on a 3-T GE scanner using a
standard radiofrequency head coil. Head motion was minimized by foam padding and
forehead-restraining straps. A T1-weighted high-resolution scan and a set of axial fluid
attenuated inversion recovery images will be acquired. T1-weighted and fluid attenuated
inversion recovery images will be realigned and spatially normalized into images of isotropic
voxel size implemented in Matlab. Each session will last approximate 1 hour including set-up
time.
A research staff will administer Beck Depression Inventory (BDI), Fatigue Severity Scale
(FSS), forward and backward digit span for controlling for confounding effect of cognitive
improvement in this study.
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