Increasing upper limb training intensity in chronic stroke using embodied virtual reality: a pilot study

Pérez-Marcos, Daniel; Chevalley, Odile; Schmidlin, Thomas W.; Garipelli, Gangadhar; Serino, Andrea; Vuadens, Philippe; Tadi, Tej; Blanke, Olaf; Millán, José del R.

doi:10.1186/s12984-017-0328-9

Cited by 103 publications

(86 citation statements)

References 48 publications

(42 reference statements)

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“…These findings confirmed previous results indicating that robotic rehabilitation may be more effective than conventional treatments for chronic participants [16,90]. Moreover, they supported the notion that cortical reorganization is present also in the chronic stages post-stroke [86] and can be enhanced by high-intensity treatments [94][95][96].…”

Section: Effects Of Robot Therapy Versus Arm-specific Physiotherapy Osupporting

confidence: 90%

Effects of robot therapy on upper body kinematics and arm function in persons post stroke: a pilot randomized controlled trial

Carpinella

Lencioni

Bowman

et al. 2020

J NeuroEngineering Rehabil

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Background: Robot-based rehabilitation for persons post-stroke may improve arm function and daily-life activities as measured by clinical scales, but its effects on motor strategies during functional tasks are still poorly investigated. This study aimed at assessing the effects of robot-therapy versus arm-specific physiotherapy in persons post-stroke on motor strategies derived from upper body instrumented kinematic analysis, and on arm function measured by clinical scales.Methods: Forty persons in the sub-acute and chronic stage post-stroke were recruited. This sample included all those subjects, enrolled in a larger bi-center study, who underwent instrumented kinematic analysis and who were randomized in Center 2 into Robot (R_Group) and Control Group (C_Group). R_Group received robot-assisted training. C_ Group received arm-specific treatment delivered by a physiotherapist. Pre-and post-training assessment included clinical scales and instrumented kinematic analysis of arm and trunk during a virtual untrained task simulating the transport of an object onto a shelf. Instrumented outcomes included shoulder/elbow coordination, elbow extension and trunk sagittal compensation. Clinical outcomes included Fugl-Meyer Motor Assessment of Upper Extremity (FM-UE), modified Ashworth Scale (MAS) and Functional Independence Measure (FIM). Results: R_Group showed larger post-training improvements of shoulder/elbow coordination (Cohen's d = − 0.81, p = 0.019), elbow extension (Cohen's d = − 0.71, p = 0.038), and trunk movement (Cohen's d = − 1.12, p = 0.002). Both groups showed comparable improvements in clinical scales, except proximal muscles MAS that decreased more in R_Group (Cohen's d = − 0.83, p = 0.018). Ancillary analyses on chronic subjects confirmed these results and revealed larger improvements after robot-therapy in the proximal portion of FM-UE (Cohen's d = 1.16, p = 0.019). Conclusions: Robot-assisted rehabilitation was as effective as arm-specific physiotherapy in reducing arm impairment (FM-UE) in persons post-stroke, but it was more effective in improving motor control strategies adopted during an untrained task involving vertical movements not practiced during training. Specifically, robot therapy induced larger improvements of shoulder/elbow coordination and greater reduction of abnormal trunk sagittal movements. The beneficial effects of robot therapy seemed more pronounced in chronic subjects. Future studies on a larger sample should be performed to corroborate present findings. Trial registration: www.ClinicalTrials.gov NCT03530358. Registered 21 May 2018. Retrospectively registered.

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Section: Effects Of Robot Therapy Versus Arm-specific Physiotherapy Osupporting

confidence: 90%

Effects of robot therapy on upper body kinematics and arm function in persons post stroke: a pilot randomized controlled trial

Carpinella

Lencioni

Bowman

et al. 2020

J NeuroEngineering Rehabil

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“…Some quantitative kinematic and biomechanical parameters have been considered critical references for off-site assessment [24]. In addition, VR environments with high immersion and interaction improve patient motivation to participate in unsupervised assessments [23,25,26]. Recently, haptic devices have been incorporated into VR rehabilitation.…”

Section: Introductionmentioning

confidence: 99%

Design a Haptic-Combined Virtual Reality System to Improve Box and Block Test (BBT) for Upper Extremity Function Assessment

Dong

Liu

Tang

et al. 2020

Preprint

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Background: The Box and Block Test (BBT) has been widely used to assess gross upper extremity (UE) motor function. We designed a haptic-combined virtual reality (VR) system, named VBBT, to improve BBT with kinematic parameters for more specific assessments.Methods: According to the block-transfer task in BBT, we designed a VBBT system with a haptic device to provide a sense of the grasping force and block's gravity during task performance for UE function assessment. Besides the number of transferred blocks (N-TB), some kinematic parameters were also collected in VBBT for more specific assessment, including the number of zero-crossings of moving acceleration (NZC-ACC), the number of zero-crossings of derivative of releasing force (NZC-DRF), the ratio of path length and linear length (PLR) and the distance between barrier partition and drop position (DDP). 16 post-stroke patients and 113 healthy subjects were recruited to examine quantitative performances, concurrent validity, test-retest reliability and subjective preference between the BBT and VBBT.Results: Based on the measurements of 95% healthy subjects, the normative ranges of quantitative performances were established for BBT and VBBT. Deficiencies in patients’ UE function could be identified when their measurements fell outsides. A moderate correlation was found in the N-TBs between the VBBT and BBT (r = 0.42). The measurements in VBBT presented a stronger age-related correlation than that in BBT (R2 = 0.57 and R2 = 0.16). The N-TBs in both BBT and VBBT were strongly correlated to the Action Research Arm Test (ARAT) (|r| = 0.84 and 0.83), and the NZC-ACC and NZC-DRF in VBBT also showed significant correlations. (|r| = 0.76 and 0.79). The N-TB, NZC-ACC and NZC-DRF in VBBT showed a good test-retest reliability (ICC = 0.75, 0.78 and 0.80) while a moderate reliability was found in BBT (ICC = 0.62). For the patient preference, VBBT was given a higher score than the BBT (p < 0.05) for its enjoyment and completion effort performing.Conclusion: The VBBT improved a gross manual assessment in BBT, which can provide clinically validated, reliable and motivative assessment with kinematic parameters for specific UE motor functions of post-stroke patients.

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“…The improvement of the measures in the intervention group is because of the advantageous effects of traditional occupational therapy practices along with VR practices. Daily living activities did not significantly affect the groups [5,30,31]. Additionally, the high satisfaction rate of participants indicates the joyful and motivational nature of such activities accompanied by traditional treatments.…”

Section: Discussionmentioning

confidence: 82%

The Effects of Virtual Reality on Upper Limb Function in Chronic Stroke Patients: A Clinical Trial

et al. 2019

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Stroke is one of the main causes of disability and mortality worldwide. Most survivors experience impairments in their upper limb motor function. Methods: This experimental study was performed as a clinical trial on 30 chronic stroke patients who experienced stroke from 6 to 96 months ago. Patients were non-randomly divided into the intervention (Virtual Reality besides conventional occupational therapy) and control (conventional occupational therapy) groups. Each treatment session lasted for one hour which was divided into conducting conventional occupational therapy techniques and Virtual Reality (VR) for the intervention group, and routine techniques for the control group. The intervention effectiveness was evaluated by the Fugl-Meyer Upper Extremity Scale, Stroke Impact Scale, Chedoke Arm and Hand Activity Inventory, Motricity Index, Modified Ashworth Scale and goniometer. Results were analyzed by SPSS and one-sample Kolmogorov-Smirnov, Shapiro-Wilk test, Independent Samples t-test and Mann Whitney U test were applied to assess the normality of data and to detect significant differences between study variables. Results: The results suggested that investigated parameters such as upper limb motor function, muscle tone and the range of motion were significantly different in the intervention group, compared to control group; however, there was no significant changes in none of the group's daily living activities. Discussion: VR-based computer games in combination with routine occupational therapy interventions could improve upper extremities functional impairments in chronic stroke patients. However, it seems the mechanisms behind the effectiveness of video games and their impact on brain cortex as well as upper limbs function need to be further investigated.

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Increasing upper limb training intensity in chronic stroke using embodied virtual reality: a pilot study

Cited by 103 publications

References 48 publications

Effects of robot therapy on upper body kinematics and arm function in persons post stroke: a pilot randomized controlled trial

Effects of robot therapy on upper body kinematics and arm function in persons post stroke: a pilot randomized controlled trial

Design a Haptic-Combined Virtual Reality System to Improve Box and Block Test (BBT) for Upper Extremity Function Assessment

The Effects of Virtual Reality on Upper Limb Function in Chronic Stroke Patients: A Clinical Trial

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