Upper Limb Task-Oriented Rehabilitation With Robotic Exoskeleton for Hemiparetic Stroke Patients
- Conditions
- Cerebrovascular Accident (CVA)Stroke RehabilitationChronic Disease
- Interventions
- Device: Upper Arm Rehabilitation Light Exoskeleton (RH-LEXOS)
- Registration Number
- NCT03319992
- Lead Sponsor
- Scuola Superiore Sant'Anna di Pisa
- Brief Summary
The aim of this study is to evaluate the effects of an assisted rehabilitation treatment through a robotic exoskeleton device on the functional recovery in a group of patients with hemiparesis from lesion of the first motor neuron (post-stroke), compared with a group of patients subjected to a conventional rehabilitation treatment. The patients enrolled in the study are chronic stroke injured with right hemiparesis of moderate to severe degree, by the system injury pyramid, never undergoing rehabilitation treatment with robots.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 26
- diagnosis of a first-ever left hemisphere ischemic or hemorrhagic stroke at least 6 months prior to entry into the study;
- minimum ability for shoulder humeral elevation;
- upper-extremity motor function Fugl-Meyer (FM) score ≥ 15(out of 66);
- absence of neurological or muscular disorders that interfere with neuromuscular function;
- absence of severe cognitive deficits that would limit patients' ability to complete the study;
- minimum score of 2 in the Modified Ashworth Scale;
- not participating in any experimental rehabilitation or drug studies at the same time
- no previous experience with robotic treatments.
Not provided
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Robotic treatment Upper Arm Rehabilitation Light Exoskeleton (RH-LEXOS) The patients enrolled in the robotic arm are going to be undergone a series of passive, assisted and active mobilization in upper limb task-oriented exercises implemented in 3d virtual environments. Briefly speaking, these tasks promote the upper arm multi-joints coordination during the execution of reaching movements and grasping actions of fixed virtual objects displaced in the space.
- Primary Outcome Measures
Name Time Method Change in Fugl-Meyer Assessment (FMA( Score baseline and 6 weeks The null hypothesis tested in this study was the change in motor function domain of the upper extremity portion of the Fugl-Meyer assessment in the Robotic Group (Robotic Treatment) would be the same as the one obtained by the Control Group (Conventional Treatment).
The FMA outcome is further divided and analyzed in terms of sub-items. In particular, the motor FMA score is divided into proximal (shoulder and elbow movement, 36 points) and distal (hand and wrist movement, 24 points) sub-items.
- Secondary Outcome Measures
Name Time Method Functional scale: Bimanual Activity Test (BAT) baseline and 6 weeks The BAT is a functional scale designed to quantify the contribution of patient's affected upper limb to execute 25 common Activities of Daily Living such as Loosen and tighten the cap of a bottle , or unscrew a bolt. The elapsed time for accomplishing each task is measured and the therapist also give a score (ranging from 1 to 4) about the quality of each movement.
The BAT data is analyzed also in terms of sub-items, divided into pinch-tasks and power-tasks collecting those items requiring fine and gross manipulation motor skills respectively.Modified Ashworth (MA) scale baseline and 6 weeks The MA scale (Bohannon and Smith, 1987) is used to evaluate spasticity of the upper limb and to assess abnormal muscle tone at the shoulder and elbow. The MA scale is a 6-point scale: scores range from 0 to 4, where lower scores represent normal muscle tone and higher scores represent spasticity or increased resistance to passive movement. MA scores were averaged across the two joints and across testing directions (flexion, extension) to estimate abnormal muscle tone in the upper extremity (Zackowski, Dromerick et al., 2004)
Robotic kinesiological assessment of movement: Execution Time At end of each session, during 6 weeks of enrollment in treatment This measure is evaluated only in the group of patients performing robotic training, at the end of each session through the analysis of their performance during the execution of an evaluation exercise without robotic assistance.The patients are instructed to reach different targets positioned in front of them and placed around a vertical circumference at 12 equally spaced locations.
The robotic measure is extracted for each outgoing (from the center to the target) movement. The execution time is measured as the elapsed time (measure in seconds) for accomplishing each movement, measured from the time of grasping of the virtual object at the start position to the release time at the target position.Robotic kinesiological assessment of movement: Smoothness index At end of each session, during 6 weeks of enrollment in treatment This measure is evaluated only in the group of patients performing robotic training, at the end of each session through the analysis of their performance during the execution of an evaluation exercise without robotic assistance.The patients are instructed to reach different targets positioned in front of them and placed around a vertical circumference at 12 equally spaced locations.
The robotic measure is extracted for each outgoing (from the center to the target) movement.
The smoothness index is computed in the same interval period by counting the number of peaks in the velocity profile of movement, namely the Number of Movements Units (NMU) (Fasoli S, Krebs J Neurosci 2002)
Trial Locations
- Locations (1)
University Hospital of Pisa
🇮🇹Pisa, Italy