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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT01569607
Other study ID # IRB00052053
Secondary ID R21HD067906-01A1
Status Completed
Phase N/A
First received March 30, 2012
Last updated December 13, 2017
Start date March 8, 2012
Est. completion date August 26, 2016

Study information

Verified date December 2017
Source Emory University
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Stroke is a leading cause of morbidity in the United States but identification of treatment strategies to improve outcome is limited by the incomplete understanding of the mechanisms of recovery. Motor cortex (M1) reorganization plays a major-role in the recovery of motor deficits post-stroke; hence the importance for further development of rehabilitative strategies that utilize this potential for recovery.

In Specific Aim 1, investigators will determine if repeated exposure to training combined with Hebbian-type M1 stimulation enhances functional M1 reorganization in lesioned M1 of stroke patients.

In Specific Aim 2, investigators will determine if repeated exposure to training combined with Hebbian-type M1 stimulation enhances structural cortical reorganization in lesioned M1 of stroke patients and to explore whether these structural changes are related to the training induced functional cortical reorganization.

The overall goal of this project is to determine the effect of Hebbian- type stimulation on both, functional and structural brain reorganization, thereby obtaining indirect evidence for the neuronal substrate underlying training related improvement and maintenance of motor function in stroke patients. This knowledge may have a substantial positive impact on treatment for stroke patients that may significantly improve recovery and could move the field of neuro-rehabilitation forward.


Description:

Stroke is a leading cause of morbidity in the United States but identification of treatment strategies to improve outcome is limited by the incomplete understanding of the mechanisms of recovery. Motor cortex (M1) reorganization plays a major-role in the recovery of motor deficits post-stroke; hence the importance for further development of rehabilitative strategies that utilize this potential for recovery. Non-invasive cortical stimulation can enhance the beneficial effects of motor training on performance and functional plasticity of motor cortex. Among the different approaches used in these studies, Hebbian-type M1 stimulation is particularly intriguing, as it seems to be more effective when compared to random M1 stimulation. There is emerging evidence that motor training or cortical stimulation related improvement of function are associated with increases in the grey matter of targeted brain areas. While there is therefore some evidence supporting structural reorganization in human M1 in response to motor learning and cortical stimulation, the mechanisms underlying these changes and their relationship to functional plasticity are not known. A better understanding of the sequences of events is critical to development of optimal therapeutic interventions to improve recovery following stroke.

In Specific Aim 1, investigators will determine if repeated exposure to training combined with Hebbian-type M1 stimulation enhances functional M1 reorganization in lesioned M1 of stroke patients.

In Specific Aim 2, investigators will determine if repeated exposure to training combined with Hebbian-type M1 stimulation enhances structural cortical reorganization in lesioned M1 of stroke patients and to explore whether these structural changes are related to the training induced functional cortical reorganization.

The overall goal of this project is to determine the effect of Hebbian- type stimulation on both, functional and structural brain reorganization, thereby obtaining indirect evidence for the neuronal substrate underlying training related improvement and maintenance of motor function in stroke patients. This knowledge may have a substantial positive impact on treatment for stroke patients that may significantly improve recovery and could move the field of neuro-rehabilitation forward.


Recruitment information / eligibility

Status Completed
Enrollment 48
Est. completion date August 26, 2016
Est. primary completion date August 26, 2016
Accepts healthy volunteers No
Gender All
Age group 18 Years to 85 Years
Eligibility Inclusion Criteria:

- Age 18-85

- Single cerebral ischemic infarction > 6 month affecting the primary motor output system of the hand at a cortical (M1) level as defined by MRI of the brain

- At the time of cerebral infarct a motor deficit of hand of MRC of <4- of wrist and finger extension/flexion movement

- Good recovery of hand function as defined by MRC of 4 or 4+ of wrist- and finger extension/flexion movements

- Ability to perform wrist extension movements

- No other neurological disorder

- No intake of CNS active drugs

- Ability to give informed consent

- Ability to meet criteria of inclusion experiment

- No major cognitive impairment

- No contraindication to TMS or MRI

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Repetitive Transcranial Magnetic Stimulation (rTMS)
Training sessions for 5 days in a row
Sham stimulation
Sham stimulation

Locations

Country Name City State
United States Emory University School of Medicine Atlanta Georgia

Sponsors (2)

Lead Sponsor Collaborator
Cathrin Buetefisch Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Primary Motor Cortex (M1) Excitability Derived From Stimulus Response Curve Motor evoked potential (MEP) amplitudes were measured prior to treatment (baseline), one week after the treatment (post-training 1), and 4 weeks after treatment (post-training 2).The MEP is elicited by transcranial magnetic stimulation (TMS) at increased intensity. Its amplitude is measured from peak to peak and expressed in millivolts (mV). Measured MEP amplitudes were plotted against the intensity to create a stimulus response curve (SRC). Long-lasting increases in MEP amplitude indicate increases in motor cortex excitability and are associated with motor learning. Baseline, Post-Training 1 (1 Week), Post-Training 2 (4 Weeks)
Secondary Mean Time to Completion for Jebsen Hand Function Test (JTT) The JTT provides a standardized and objective evaluation of fine and gross motor hand function using simulated activities of daily living assessing the speed of performance. Total score is the sum of time taken for each sub-test, which were normalized to standard scores (also expressed in seconds).Total scores range from +1 to -1 where -1 indicates best function. Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Peak Acceleration of Wrist Extension Movements Mean peak acceleration was measured at baseline, one week after the treatment (post-training 1), and four weeks after the treatment (post-training 2). Increases in the mean peak acceleration of the trained wrist extension movements indicate motor learning. Acceleration was measured in g; a symbol for the average acceleration produced by gravity at the Earth's surface. Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Reaction Time of Wrist Extension Movements Subjects will be asked to perform 7 auditory-cued ballistic wrist extensions before and after motor training. Electromyographic (EMG) activity recorded during the ballistic wrist extensions will be used to measure reaction time. Reaction time is the length of time between the auditory cue and the onset of the movement-related EMG burst of the extensor carpi ulnaris muscle. A longer time indicated longer time to reaction. Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Motor Activity Log (MAL) Score: Amount Subtest Individuals are asked to rate amount of movement during 30 daily functional tasks. Items are scored on a 0 to 6-point ordinal scale as follows:
0 = The weaker arm was not used at all for that activity (never)
1 = Occasionally used weaker arm, but only very rarely (very rarely)
2= Sometimes used weaker arm, but did the activity most of the time with stronger arm (rarely)
3 = Used weaker arm about half as much as before the stroke (half pre-stroke)
4 = Used weaker arm almost as much as before the stroke (3/4 pre-stroke)
5 = The ability to use the weaker arm for that activity was as good as before the stroke (normal)
Total scores range from 0 to 140; 0 indicating the least movement 140 indicating the most movement. The scores were converted into percentage scores where higher percent score indicate more movement and lower percent score less movement.
Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Motor Activity Log (MAL): How Well Subtest Individuals are asked to rate quality of movement during 30 daily functional tasks. Items are scored on a 6-point ordinal scale as follows:
0=The weaker arm was not used at all for that activity (never); 1=The weaker arm was moved during that activity, but was not helpful (very poor); 2=The weaker arm was of some use during the activity, but needed help from the stronger arm or moved very slowly or with difficulty (poor); 3=The weaker arm was used for the purpose indicated, but movements were slow or were made with only some effort (fair); 4=The movements made by the weaker arm were almost normal, but were not quite as fast or accurate as normal (almost normal); 5=The ability to use the weaker arm for that activity was as good as before the stroke (normal)
Total scores range from 0 to 140; 0 indicating the least movement and 140 indicating the most movement.
Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Wolf Motor Function Test (WMFT) Total Time The Wolf Motor Function Test (WMFT) is a quantitative index of upper extremity motor ability examinable through the use of timed and functional tasks. There are 15 timed tasks included with a time cap of 120 seconds. The max amount of time to completion is 1800 seconds if all tasks are failed. The time in seconds were summed across all the tasks to obtain the total duration. Values in the table represent the time taken in seconds to successfully complete all 15 tasks). Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Wolf Motor Function Test Functional Ability (WMFT-FS) Scale Score The WMFT is a 17 item scale that quantifies upper extremity (UE) motor ability through timed and functional tasks. The items are rated on a 6-point scale.Total scores can range from 17 to 102. Lower scores indicate debilitating mobility (such as no or limited functionality), while higher score indicate greater mobility (such as slow movement and normal movement). Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
Secondary Mean Wolf Motor Function Test (WMFT) Grip Strength Participants attempt to grip the dynamometer with greatest grip strength possible. The test should be conducted 3 times with a 1-minute rest between trials. The mean of grip strength exerted (kg) on 3 trials is then calculated. Baseline, Post-Training (1 Week), Post-Training (4 Weeks)
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