Stroke Clinical Trial
Official title:
NRI:BMI Control of a Therapeutic Exoskeleton
Verified date | June 2021 |
Source | The University of Texas Health Science Center, Houston |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
The purpose of this study is: 1. To augment the MAHI Exo-II, a physical human exoskeleton, with a non-invasive brain machine interface (BMI) to actively include patient in the control loop and thereby making the therapy 'active'. 2. To determine appropriate robotic (kinematic data acquired through sensors on robotic device ) and electrophysiological ( electroencephalography- EEG based) measures of arm motor impairment and recovery after stroke. 3. To demonstrate that the BMI controlled MAHI Exo-II robotic arm training is feasible and effective in improving arm motor functions in sub-acute and chronic stroke population.
Status | Completed |
Enrollment | 18 |
Est. completion date | April 28, 2018 |
Est. primary completion date | April 28, 2018 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 18 Years to 75 Years |
Eligibility | Inclusion Criteria: 1. Diagnosis of unilateral cortical and subcortical stroke confirmed by brain CT or MRI scan; 2. Subacute or chronic stroke; interval of at least 3month and interval of at least 6 months from stroke to time of enrollment, respectively; 3. No previous clinically defined stroke; 4. Age between 18-75 years; 5. Upper-extremity hemiparesis associated with stroke (manual muscle testing score of at least 2, but no more than 4/5 in the elbow and wrist flexors); 6. No joint contracture or severe spasticity in the affected upper extremity: i.e., significant increase in muscle tone against passive ROM is no more than ½ of full range for given joint e.g., elbow, wrist and forearm movements. 7. Sitting balance sufficient to participate with robotic activities; 8. No neglect that would preclude participation in the therapy protocol; 9. Upper limb proprioception present ( as tested by joint position sense of wrist); 10. No history of neurolytic procedure to the affected limb in the past four months and no planned alteration in upper-extremity therapy or medication for muscle tone during the course of the study; 11. No medical or surgical condition that will preclude participation in an occupational therapy program, that includes among others, strengthening, motor control and functional re-training of the upper limbs; 12. No contraindication to MRI; 13. No condition (e.g., severe arthritis, central pain) that would interfere with valid administration of the motor function tests; 14. English-language comprehension and cognitive ability sufficient to give informed consent and to cooperate with the intervention.- Exclusion Criteria: 1. Orthopedic limitations of either upper extremity that would affect performance on the study; 2. Untreated depression that may affect motivation to participate in the study; 3. Subjects who cannot provide self-transportation to the study location. Inclusion and Exclusion Criteria for Health Subjects: Inclusion criteria: - able to understand and sign the consent form - age 18-65 Exclusion criteria: - Previous history of or MRI findings consistent with brain tumors, strokes, trauma or arterial venous malformations - Contraindication to MRI - Pregnancy |
Country | Name | City | State |
---|---|---|---|
United States | The Institute for Rehabilitation and Research (TIRR) at Memorial Hermann | Houston | Texas |
Lead Sponsor | Collaborator |
---|---|
The University of Texas Health Science Center, Houston | National Institute of Neurological Disorders and Stroke (NINDS), The Methodist Hospital Research Institute, TIRR Memorial Hermann, University of Houston |
United States,
A. Gupta, V. Patolgu, M.K. O'Malley, and C.M. Burgar (2008). Design, Control and Performance of RiceWrist: A Force Feedback Wrist Exoskeleton for Rehabilitation and Training, International Journal of Robotics Research (IJRR) 27(2): 233-51.
Bhagat NA, French J, Venkatakrishnan A, Yozbatiran N, Francisco GE, O'Malley MK, Contreras-Vidal JL. Detecting movement intent from scalp EEG in a novel upper limb robotic rehabilitation system for stroke. Annu Int Conf IEEE Eng Med Biol Soc. 2014;2014:4127-4130. doi: 10.1109/EMBC.2014.6944532. — View Citation
Bhagat NA, Venkatakrishnan A, Abibullaev B, Artz EJ, Yozbatiran N, Blank AA, French J, Karmonik C, Grossman RG, O'Malley MK, Francisco GE, Contreras-Vidal JL. Design and Optimization of an EEG-Based Brain Machine Interface (BMI) to an Upper-Limb Exoskeleton for Stroke Survivors. Front Neurosci. 2016 Mar 31;10:122. doi: 10.3389/fnins.2016.00122. eCollection 2016. — View Citation
Bhagat NA, Yozbatiran N, Sullivan JL, Paranjape R, Losey C, Hernandez Z, Keser Z, Grossman R, Francisco GE, O'Malley MK, Contreras-Vidal JL. Neural activity modulations and motor recovery following brain-exoskeleton interface mediated stroke rehabilitatio — View Citation
Bradberry TJ, Gentili RJ, Contreras-Vidal JL. Fast attainment of computer cursor control with noninvasively acquired brain signals. J Neural Eng. 2011 Jun;8(3):036010. doi: 10.1088/1741-2560/8/3/036010. Epub 2011 Apr 15. — View Citation
Yozbatiran N, Berliner J, O'Malley MK, Pehlivan AU, Kadivar Z, Boake C, Francisco GE. Robotic training and clinical assessment of upper extremity movements after spinal cord injury: a single case report. J Rehabil Med. 2012 Feb;44(2):186-8. doi: 10.2340/16501977-0924. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Change From Baseline in Fugl-Meyer Arm (FMA) Motor Score | FMA is a stroke-specific, performance based impairment index. It quantitatively measures impairment based on Twitchell and Brunnstrom's concept of sequential stages of motor return in hemiplegic stroke patients. It uses an ordinal scale for scoring of 33 items for the upper limb component of the F-M scale (0:can not perform; 1:can perform partially; 2:can perform fully). Total range is 0-66, 0 being poor and 66 normal. | Baseline, immediately after end of treatment (within a week), 2 weeks after end of treatment, 12 weeks after end of treatment | |
Primary | Neural Activity (Cortical Dynamics) Measured by Electroencephalography (EEG) Movement-related Cortical Potential (MRCP) Amplitude | EEG activity in the low-frequency delta band will be assessed. Scalp EEG electrodes will be located over the motor cortex, specifically, central (Cz, C1- C4), fronto- central (FCz, FC1 - FC4) and centro-parietal electrodes (CPz, CP1 - CP4). Further, to account for left hand vs. right hand impairment, the electrode locations will be flipped for individuals with right hand impairment. Increased MRCP amplitude indicates increased activation of the ipsi-lesional hemisphere or inhibition of competing contra-lesional hemisphere, following motor relearning. | Baseline, immediately after end of treatment (within a week) | |
Primary | Cortical Dynamics Measured by Electroencephalography (EEG) Movement-related Cortical Potential (MRCP) Latency | EEG activity in the low-frequency delta band will be assessed. Scalp EEG electrodes will be located over the motor cortex, specifically, central (Cz, C1- C4), fronto- central (FCz, FC1 - FC4) and centro-parietal electrodes (CPz, CP1 - CP4). Further, to account for left hand vs. right hand impairment, the electrode locations will be flipped for individuals with right hand impairment. MRCP latency is the duration of MRCP prior to movement onset, and is defined as time difference starting from 50% of peak amplitude until the time of movement onset. Increased MRCP latency indicates increased activation of the ipsi-lesional hemisphere or inhibition of competing contra-lesional hemisphere, following motor relearning. | Baseline, immediately after end of treatment (within a week) | |
Primary | Movement Quality as Assessed by Exoskeleton Kinematics - Average Speed | A higher value indicates better movement quality. | Baseline, immediately after end of treatment (within a week) | |
Primary | Movement Quality as Assessed by Exoskeleton Kinematics - Spectral Arc Length | Spectral Arc Length is a frequency-domain measure that increases in value as movements become less jerky. A higher value indicates better movement quality (that is, movements are less jerky). | Baseline, immediately after end of treatment (within a week) | |
Primary | Movement Quality as Assessed by Exoskeleton Kinematics - Number of Peaks | Number of peaks is a metric related to the shape of the velocity profile. A higher number of peaks implies jerkier movement. A lower number of peaks indicates better movement quality (that is, movements are less jerky). | Baseline, immediately after end of treatment (within a week) | |
Primary | Movement Quality as Assessed by Exoskeleton Kinematics - Time to First Peak | Time to 1st Peak is a metric related to the shape of the velocity profile, and is reported as [(time to first peak) divided by (total movement duration)]. This value is usually less than the ideal value of 0.5, or 50%, of the total movement duration when a movement has more than one peak. The closer the value is to the ideal value of 0.5, the more well-balanced are the movements. | Baseline, immediately after end of treatment (within a week) | |
Secondary | Score on Action Research Arm Test (ARAT) | The ARAT is used to assess subject's ability to manipulate-lift-release objects horizontally and vertically, which differs in size, weight and shape. The test consists of 19 items divided into 4 sub-tests (grasp, grip, pinch, gross arm movement) and each item is rated on a 4-point scale. The possible total score ranges between 0-57. Higher scores indicate better performance. | Baseline, immediately after end of treatment (within a week), 2 weeks after end of treatment, 12 weeks after end of treatment | |
Secondary | Score on Jebsen-Taylor Hand Function Test (JTHFT) | The JTHFT is a motor performance test and assesses the time needed to perform 7 everyday activities (for example, flipping cards and feeding). Score is reported as items completed per second. | Baseline, immediately after end of treatment (within a week), 2 weeks after end of treatment, 12 weeks after end of treatment | |
Secondary | Grip Strength | A grip dynamometer will be used to measure maximum gross grasp force. | Baseline, immediately after end of treatment (within a week), 2 weeks after end of treatment, 12 weeks after end of treatment | |
Secondary | Pinch Strength | A pinch gauge will be used to measure maximum pinch force. | Baseline, immediately after end of treatment (within a week), 2 weeks after end of treatment, 12 weeks after end of treatment |
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