Robot Aided Rehabilitation - Intervention

Not Applicable

Recruiting

• Conditions: Stroke
• Interventions: Other: Passive stretching; Other: Passive movement; Other: IntelliArm; Other: Hand robot

• Registration Number: NCT02359253
• Lead Sponsor: University of Maryland, Baltimore

Brief Summary

Sensorimotor impairments following stroke often involve complex pathological changes across multiple joints and multiple degrees of freedom of the arm and hand, thereby rendering them difficult to diagnose and treat. The objective of this study is to evaluate multi-joint neuromechanical impairments in the arm and hand, then conduct impairment-specific treatment, and determine the effects of arm versus hand training and the effects of passive stretching before active movement training.

Detailed Description

Sensorimotor impairments following stroke can lead to substantial disability involving the upper extremity. These impairments often involve complex pathological changes across multiple joints and multiple degrees-of-freedom of the arm and hand, thereby rendering them difficult to diagnose and treat. Many potential mechanisms, such as weakness, motoneuronal hyperexcitability, and elevated passive impedance, can contribute and it is currently unclear where to focus treatment. The objectives of this study are to address allocation of therapy resources between the arm and hand and to examine the benefits of combining passive stretching with active movement training.

Aim 1. To compare the efficacy of training the arm versus the hand in promoting upper extremity rehabilitation.

Hypothesis 1: Treating the proximal larger joints in the arm alone will lead to greater improvement than treating the distal hand alone.

Aim 2. To examine the efficacy of combining passive stretching with active (assistive or resistive) training for the shoulder, elbow, wrist, and hand.

Hypothesis 2: Multi-joint intelligent stretching followed by active (assistive or resistive) movement facilitated by use of the IntelliArm arm rehabilitation robot and a Hand rehabilitation robot will improve motor control of the upper extremity more than standard movement therapy alone.

Subjects will be assigned randomly with equal chance to one of four groups. Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Half of all the subjects will be assigned to the stretching groups and the other half to the passive movement groups. Half of the subjects will be assigned to the arm-training and the remaining half to hand-training groups. Arm-training groups will use the IntelliArm, hand-training groups will use the hand robot. For those assigned to the stretching groups, subjects will complete up to 30 minutes of passive stretching with the IntelliArm or the hand robot. For those assigned to the passive movement condition, subjects will do the robot according to their group assignment and wear it for up to 30 minutes with little to no stretching preceding the active therapy session. For each group, the initial about 30 minutes of stretching or relaxing will be followed by 45-60 minutes of active therapy with the IntelliArm or hand robot (depending on group assignment), for a total session time of 75-90 minutes.

The 4 groups of subjects will be compared against each other.

Study Timeline

• Study First Submitted: 2015-02-04
• Study First Submitted QC: 2015-02-04
• Study First Posted: 2015-02-09
• Study Start: 2018-10-14
• Status Verified: 2024-07
• Last Update Submitted: 2024-07-02
• Last Update Posted: 2024-07-05
• Primary Completion: 2025-05-31
• Study Completion: 2026-12-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 72

Inclusion Criteria

• First focal unilateral lesion, ischemic or hemorrhagic
• Had a stroke 1-12 months prior to enrollment
• Rated between stages 2-4 on the Chedoke McMaster Stroke Assessment Impairment Inventory: Stage of Recovery of the Arm and Hand

Exclusion Criteria

• Apraxia
• Score of less than 22 on the Mini Mental Status Exam
• Severe pain in the shoulder by a self-rating of 7 out of 10 or greater
• Severe contracture in the upper extremity
• Unable to sit in a chair for 3 consecutive hours
• Unrelated musculoskeletal injuries
• Poor fit into equipment used in study
• Botox injection in upper extremity within 4 months
• Concurrent participation in gait or upper extremity intervention studies

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
IntelliArm with passive stretching	Passive stretching	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will complete up to 30 minutes of strong passive stretching, then followed by 45-60 minutes of active movement training with the IntelliArm.
IntelliArm with passive stretching	IntelliArm	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will complete up to 30 minutes of strong passive stretching, then followed by 45-60 minutes of active movement training with the IntelliArm.
The hand robot with passive stretching	Passive stretching	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will complete up to 30 minutes of strong passive stretching, then followed by 45-60 minutes of active movement training with the hand robot.
IntelliArm with passive movement	Passive movement	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will wear the IntelliArm for up to 30 minutes with gentle passive movement or little stretching, then followed by 45-60 minutes of active movement training with the IntelliArm.
The hand robot with passive movement	Passive movement	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will wear the hand robot for up to 30 minutes with gentle passive movement or little stretching, then followed by 45-60 minutes of active movement training with the hand robot.
IntelliArm with passive movement	IntelliArm	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will wear the IntelliArm for up to 30 minutes with gentle passive movement or little stretching, then followed by 45-60 minutes of active movement training with the IntelliArm.
The hand robot with passive stretching	Hand robot	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will complete up to 30 minutes of strong passive stretching, then followed by 45-60 minutes of active movement training with the hand robot.
The hand robot with passive movement	Hand robot	Groups are split into 2 conditions based on stretching and 2 conditions based on target of intervention (arm or hand). Subjects will wear the hand robot for up to 30 minutes with gentle passive movement or little stretching, then followed by 45-60 minutes of active movement training with the hand robot.

Primary Outcome Measures

Name	Time	Method
Changes from baseline Graded Wolf Motor Function Test (WMFT) at two time points	Within 2 week prior to intervention, 2 week following intervention, and 2 months following intervention	The WMFT is a quantitative measure of upper extremity motor ability through timed and functional tasks.

Secondary Outcome Measures

Name	Time	Method
Changes from baseline Fugl-Meyer Upper Extremity at two time points	Within 2 week prior to intervention, 2 week following intervention, and 2 months following intervention	The Fugl-Meyer Assessment is a stroke-specific, performance-based impairment index. It is designed to assess motor functioning, balance, sensation and joint functioning in patients with post-stroke hemiplegia.
Changes from baseline Nottingham Sensory Assessment at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	The assessment tests the tactile sensation of the patient through light touch, pressure and pinprick.
Changes from baseline Action Research Arm Test (ARAT) at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	ARAT assesses the ability to handle objects differing in size, weight and shape and therefore can be considered to be an arm-specific measure of activity limitation.
Changes from baseline spasticity at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	Spasticity will be measured by the resistance torque in Newton-meter under controlled movement at each joint.
Changes from baseline Chedoke McMaster Stroke Assessment: Impairment Inventory of Arm and Hand at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	The Chedoke-McMaster Stroke Assessment (CMSA) is a screening and assessment tool utilized to measure physical impairment and activity of an individual following a stroke. The Chedoke Arm and Hand Activity Inventory (CAHAI) is used to assess functional ability of the paretic arm and hand. Each domain is scored on a 7-point scale.
Changes from baseline Modified Ashworth Scale (MAS) at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	The Modified Ashworth Scale is the most widely used assessment tool to measure resistance to limb movement in a clinic setting. Scores range from 0-4, with 6 choices. 0 (0) - No increase in muscle tone; 1 (1) - Slight increase in muscle tone, manifested by a catch and release or by minimal resistance at the end of the range of motion when the affected part(s) is moved in flexion or extension; 1+ (2) - Slight increase in muscle tone, manifested by a catch, followed by minimal resistance throughout the remainder (less than half) of the ROM (range of movement); 2 (3) - More marked increase in muscle tone through most of the ROM, but affect part(s) easily moved; 3 (4) - Considerable increase in muscle tone passive, movement difficult; 4 (5) - Affected part(s) rigid in flexion or extension.
Changes from baseline Grip Strength & Pinch Strength at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	A dynamometer is used to measure grip strength and a pinch gauge to measure tip, key, and palmar pinch.
Changes from baseline relaxation time of the finger flexor muscles at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	Relaxation time will be quantified in Second by examining flexor muscle activity. The subject will be instructed to grip maximally upon hearing an audible tone. The subject should then relax his/her grip as quickly as possible after hearing a second tone. The relaxation time is defined as the elapsed time in Second from the second tone to the point at which the flexor muscle magnitude returns to the baseline level + three standard deviations.
Changes from baseline range of motion (ROM) at two time points	Within 2 weeks prior to intervention, 2 weeks following intervention, and 2 months following intervention	The range of motion (ROM) of shoulder, elbow, wrist and fingers will be measured in Degree.

Trial Locations

Locations (1)

University of Maryland, Baltimore; 🇺🇸 Baltimore, Maryland, United States