Clinical Trial Details
— Status: Terminated
Administrative data
| NCT number |
NCT02920333 |
| Other study ID # |
NIBS2014/00359 |
| Secondary ID |
|
| Status |
Terminated |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
February 2016 |
| Est. completion date |
July 2020 |
Study information
| Verified date |
April 2022 |
| Source |
National University Hospital, Singapore |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
This study is to compare the efficacy of two types of non-invasive brain stimulation (NIBS)
in lower limb motor function recovery in stroke patients. The intervention will be tDCS
(transcraniel direct current stimulation) or rTMS (repetitive transcraniel magnetic
stimulation) plus conventional gait training for 10 days over 2 weeks.
The study hypothesizes that:
1. When combined with conventional gait training, NIBS could improve the walking ability of
stroke survivors.
2. NIBS will modulate cortex activity of the brain area representing the lower limbs.
3. The effects of NIBS might be related to some genetic factors. 45 subjects will be
randomly divided into 3 groups, receiving tDCS plus conventional gait training, or rTMS
plus conventional gait training, or sham tDCS plus conventional gait training.
The outcome measures include clinical functional assessment, brain activity assessed by TMS
measurement and MRI, genetic factor measurement. All these will be done at pre, immediate
after intervention and 4 weeks after intervention.
Description:
This is an exploratory randomized trial on 45 subacute stroke subjects with gait impairment
following a single anterior circulation subcortical stroke 3-6 months prior to recruitment,
with comfortable walking speed of 0.2 to 0.4 m/s (which generally describes those who require
1 person assistance to supervision for ambulation - Functional Ambulatory Category (FAC) 3
(Kollen, et al. 2006). Exclusion criteria include a history of seizures, uncontrolled medical
condition or psychiatric history, neglect, aphasia, or any cognitive or behavioural
impairment causing inability to comply with instructions, cranial surgeries, pacemakers and
other implants which preclude the use of NIBS. Subjects on psychoactive medications (eg.
antiepileptics, antipsychotic and antidepressant medications) will be excluded from the
study. The diagnosis for subjects' eligibility to join the study will be determined by
subjects' self-report (to obtain medical history), medical records (to verify subjects'
self-report) as well as assessment by the research staff in the screening session (including
FMA and 10 meter walk test, ). Subjects should have completed inpatient rehabilitation and
should not be undergoing any other interventions targeting lower limb recovery during the
study. Subjects are allowed to continue with outpatient rehabilitation (generally not more
than twice a week) and home exercise program after the active intervention phase of the
study.
45 subjects with stroke will be recruited and randomized into 3 groups by a randomization
stratification approach with a computer-generated random sequence. Group 1 to receive
facilitatory 2 mA anodal tDCS for 20min to the affected M1 motor cortical representation of
the tibialis anterior muscle (TA) together with conventional post-stroke functional mobility
training; Group 2 to receive 2000 pulses of 10 Hz facilitatory rTMS to the affected motor
cortex with conventional therapy; Group 3 to receive sham stimulation with conventional
therapy. All groups will receive 2 weeks (10 days) of tDCS, rTMS or sham stimulation combined
with daily standardized post-stroke conventional training in functional mobility.
tDCS A research staff supervised by a physician will apply the tDCS to the subject. Direct
current will be transferred by a saline-soaked pair of surface sponge electrode (35cm2) and
delivered by a battery-operated, constant current stimulator with a maximum output of 10mA,
through a non-metallic conductor rubber electrode. Stimulation will be conducted at the
intensity of 2 mA and last for 20 minutes. The anode will be placed over the affected primary
motor cortex (M1) of cortical representation of the tibialis anterior muscle (TA), while the
cathode will be used as reference electrode and placed over the forehead of the unaffected
side.
Sham stimulation The same stimulation parameters as tDCS treatment will be employed for the
sham stimulation. However, the current will be applied for 30 seconds only, to give subjects
the sensation of the stimulation. This method of sham stimulation has also been validated
(Gandiga et al., 2006). Current intensity will be increased and decreased gradually to
decrease perception rTMS A research staff supervised by a physician will apply the
intervention of rTMS to the subject. For all TMS procedures, patients will be seated
comfortably and instructed to remain as still as they can. The height of the chair will be
adjusted so that both the knees and ankles are flexed at 90 degree and the two feet rest on
the floor. A tight swim cap will be worn by the subject. The vertex will be marked on the
cap. Points that are 1 cm lateral and/or 1cm posterior/anterior are marked on the cap.
Subjects will receive 10 Hz rTMS using Magstim Rapid2, with the double cone coil placed over
the "hot spot" of the affected M1. The stimulation intensity will set as 90% of RMT (or 80%
AMT, if RMT is not available), and a total of 2000 pulses will be delivered for one treatment
session.
Outcome measures will be obtained before, after the 2-week intervention and 4 weeks
post-intervention, and will include 1) clinical measures (FAC, gait analysis, 10 meter walk
test, 6 minute walk test, timed up and go), 2) cortical excitability measures using TMS
(changes in resting motor threshold (RMT), or active motor threshold (AMT) of the affected
and unaffected TA and short-interval cortical inhibition/facilitation (SICI/SICF), measured
according to the technique of Rossini et al. (1994)), 3) MRI measures including diffusion
tensor tractography (DTT), resting state protocols and GABA scan. 4) Genotyping and blood
level of BDNF. 5) Psychological and cognitive assessment including Beck Depression Inventory
(BDI), Fatigue Severity Scale, forward and backward digit span.
Clinical measures (10 meter walk test, 6 minute walk test, timed up-and-go test, gait
analysis) A research staff supervised by a physical therapist will perform the functional
assessment to the subject at the National University Hospital. The functional assessment
consists of a 10 meter walk test, 6 minute walk test and a timed up-and-go test performed in
a randomized order. The tester will not provide any assistance as the patient makes their way
around the track, however, the tester will shadow the patient so as to attend to any problems
should there be a need to.
The 10 meter walk test will be performed in a quiet indoor track of 14 meters long. Subject
should walk at his comfortable pace as usual. The test will be repeated 3 times and the
average of the duration to finish the 10 meter walk and total steps will be recorded.
The 6-minute walking test will be performed in an indoor track marked at 5-metre intervals.
Subject should walk at his comfortable pace as usual. The distance over 6 minutes will be
measured.
The timed up-and-go test will involve the subject getting off a standard armchair from a
seated position, walking 3 meters from the chair, turning back and walking to the chair and
seating back down. Subject should walk at his comfortable pace as usual. The test will be
repeated 3 times and the duration the subject takes to perform the whole task will be
recorded and averaged.
10 meter walk test, 6 minute walk test, timed up-and-go test altogether will take around 30
minutes, including set-up time.
Gait analysis will be performed using the Tekscan walkway system. Subjects will be required
to walk on a mat at their comfort speed and the 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). Gait parameters including step and stride parameters, symmetry scores,
velocity, and cadence temporal will be collected and recorded while the subject is walk along
the walkway. The whole procedure will last up to 30 minutes.
TMS A research staff supervised by a physician will apply the TMS measurement of the cortical
excitability and intracortical inhibition/facilitation to the subject. For all TMS
procedures, patients will be seated comfortably and instructed to remain as still as they
can. The height of the chair will be adjusted so that both the knees and ankles are flexed at
90 degree and the two feet rest on the floor. A tight swim cap will be worn by the subject.
The vertex will be marked on the cap. Points that are 1 cm lateral and/or 1cm
posterior/anterior are marked on the cap.
Single pulse TMS-Resting motor threshold (RMT) measurement Singe pulse TMS was delivered
using Magstim Bistim² stimulator via a double cone coil. The double cone coil was oriented to
induce a posterior-anterior current flow in cortex. The coil was placed on the cap with the
intersection of the two embedded coils located over the marked point. The coil position was
maintained manually by an assistant. Surface electromyography (EMG) electrodes are attached
to the TA for EMG recording. The "hot spot" of the motor evoked potential (MEP) from TA is
identified first from one of the marked points for both left and right side. This spot was
marked on the elastic cap and used for all recordings on that side. The lowest intensity
needed to elicit a MEP response of at least 50µV amplitude and that has been elicited in 50%
of 8 successive trials will be recorded as RMT.
Single pulse TMS-Active motor threshold (AMT) The measurement of AMT is similar with RMT
measurement. Except that subject's feet were constrained by flexible weights placed over the
dorsum of each foot to ensure isometric activation. The subject was given real time feedback
of EMG on an oscilloscope to match a target contraction corresponding to 20% maximal
voluntary isometric contractions (MVIC) for TA. The lowest intensity needed to elicit a MEP
response of at least 100µV amplitude at the "hot spot" and that has been elicited in 50% of 8
successive trials will be recorded as AMT.
Paired-pulse TMS- intracortical inhibition/facilitation measurement A first subthreshold
conditioning stimulus (80% of RMT) will be applied, followed by a second suprathreshold
stimulus (120% of RMT) with a variable interstimulus interval (ISI). The following ISIs - 2,
3, 4, 6, 9, 10, 12, 15 ms will be used. The percentage of change for each ISI before and
after TMS will be calculated from the MEPs and will therefore provide a measure of change in
intracortical facilitation and inhibition. Both single- and paired-pulse paradigms will be
performed on the affected and unaffected hemisphere.
MRI scan (resting MRI, DTI scan [diffusion tensor Imaging], GABA scan) MRI scan will be
performed at CIRC, NUS by the staff of CIRC. Prior to the scan, all subjects will be briefed
of the test procedure and safety aspects. 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.
Psychological and cognitive assessment A research staff will conduct Beck Depression
Inventory (BDI), Fatigue Severity Scale, forward and backward digit span. Digit Span is
neuropsychological test widely used to assess executive abilities following stroke and is
sensitive to brain damage (Tamez et al., 2011). The Beck's Depression Inventory will be used
to screen for major depression. As tDCS has been investigated for use in the treatment of
depression and cognitive impairment, we added the digit span to control for confounding
effect of cognitive improvement in this study.For subjects who screen positive for major
depression or suicidal ideation, the investigator performing the screening will inform a
physician investigator who will assess and make the necessary referral for psychiatric
assessment and management.
Blood BDNF level measurement and Genotyping of BDNF Blood will be taken by a trained research
staff/research nurse and analyzed at Neuroscience Laboratory, located at the Translational
Medicine Centre, Yong Loo Lin School using in-house and commercial assays. 10-20 ml of blood
will be taken each time via venipuncture for three times, at before intervention, after and 4
weeks after intervention, respectively, that is, at the same time point of other outcome
measurement. In total, 30-60 ml of blood will be collected for each subject for the whole
research study. 10ml of blood will be taken from 5 healthy subjects as controls which is
needed by the BDNF analysis protocol. To minimize the laboratory error during the test
procedure, each blood sample will be processed first to extract plasma and plasma will be
stored at -80°C at Tissue Repository, NUH, until all blood samples are collected. All plasma
samples will be analysed together after the last collection of blood from the last subject.
Any blood specimens obtained during the study will be stored and analyzed only for the
purposes of this study for a period not exceeding 5 years and will be destroyed after
completion of the study.
