Quantitative evaluation of upper-limb motor control in robot-aided rehabilitation

Zollo, Loredana; Rossini, Luca; Bravi, Marco; Magrone, Giovanni; Sterzi, Silvia; Guglielmelli, Eugenio

doi:10.1007/s11517-011-0808-1

Cited by 114 publications

(94 citation statements)

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“…2a and 2b). In a previous review on metrics from the use of robotic systems, Zoilo et al noted that the information provided by each of these measures may not be exclusive, and the names used in their survey may differ from those used in the original and cited papers (Zoilo et al, 2011). In the present review, we highlighted the same difficulty.…”

Section: Upper Extremity Movement-related Metricsmentioning

confidence: 68%

“…In the study performed by Zoilo, metrics were classified into two groups according to metrics related to biomechanical characteristics and metrics related to movement aspects (Zoilo et al, 2011). Within the review that we present, metrics found in literature analyze different movement characteristics or quality measures, which have been shown in Figs.…”

Section: Discussionmentioning

confidence: 99%

“…On the other hand, devices for robot-aided neurorehabilitation are increasingly being incorporated into patients' care programs after stroke (Bosecker et al, 2010;Colombo et al, 2008Colombo et al, , 2012Ellis et al, 2008;Zoilo et al, 2011) or spinal cord injury (Zariffa et al, 2012), and these devices can serve as precise and reliable measurement tools that record simultaneously kinematic and kinetic data. Recently, Bosecker et al (2010) and Colombo et al (2008Colombo et al ( , 2012 have provided the first experiences of evaluation metrics based on robot kinematic data for quantifying motor recovery of stroke patients during robot-aided rehabilitation.…”

Section: Introductionmentioning

confidence: 99%

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Quantitative assessment based on kinematic measures of functional impairments during upper extremity movements: A review

Reyes-Guzmán¹,

Dimbwadyo-Terrer²,

Trincado-Alonso³

et al. 2014

Clinical Biomechanics

161

154

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Background: Quantitative measures of human movement quality are important for discriminating healthy and pathological conditions and for expressing the outcomes and clinically important changes in subjects' functional state. However the most frequently used instruments for the upper extremity functional assessment are clinical scales, that previously have been standardized and validated, but have a high subjective component depending on the observer who scores the test. But they are not enough to assess motor strategies used during movements, and their use in combination with other more objective measures is necessary. The objective of the present review is to provide an overview on objective metrics found in literature with the aim of quantifying the upper extremity performance during functional tasks, regardless of the equipment or system used for registering kinematic data. Methods: A search in Medline, Google Scholar and IEEE Xplore databases was performed following a combination of a series of keywords. The full scientific papers that fulfilled the inclusion criteria were included in the review. Findings: A set of kinematic metrics was found in literature in relation to joint displacements, analysis of hand trajectories and velocity profiles. These metrics were classified into different categories according to the movement characteristic that was being measured. Interpretation: These kinematic metrics provide the starting point for a proposed objective metrics for the functional assessment of the upper extremity in people with movement disorders as a consequence of neurological injuries. Potential areas of future and further research are presented in the Discussion section.

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Section: Upper Extremity Movement-related Metricsmentioning

confidence: 68%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Quantitative assessment based on kinematic measures of functional impairments during upper extremity movements: A review

Reyes-Guzmán¹,

Dimbwadyo-Terrer²,

Trincado-Alonso³

et al. 2014

Clinical Biomechanics

161

154

View full text Add to dashboard Cite

show abstract

“…The reviews address some relevant topics related with the rehabilitation robotics research field: overview of upper-limb rehabilitation devices, different approaches to neurorobotic and hybrid management of lower limb motor disorders and a review about the assessment of the effectiveness of robot-facilitated neurorehabilitation for relearning motor skills. Moreover, the original papers cover a wide range of relevant topics like: virtual rehabilitation, rehabilitation robotic devices to train activities of daily living, electrical stimulation, assessment of upper-limb motor control in robotaided rehabilitation, new assistance algorithms based on adaptative oscillators, upper-limb rehabilitation devices based on pneumatic technology, bilateral robot-mediated therapy and assistive robotic devices for elderly people and for children with special needs.Classical devices for upper-limb rehabilitation clinical research, like ARMin [8], and many others are revised on Rui Loureiro et al [15]. Tables in this work give a present update of the well-known devices.…”

mentioning

confidence: 99%

“…Classical devices for upper-limb rehabilitation clinical research, like ARMin [8], and many others are revised on Rui Loureiro et al [15]. Tables in this work give a present update of the well-known devices.…”

mentioning

confidence: 99%

Trends in rehabilitation robotics

Garcia

Navarro

Gugliemeli

et al. 2011

Med Biol Eng Comput

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Recent advances in rehabilitation procedures, methodologies and tools tend to include more and more the cognitive aspects of motor control. With the exploitation of new technologies for brain imaging, it is also possible to 'close the loop' from brain to action. In this multidisciplinary field, robotics gets a relevant role, which can be fruitfully employed in the rehabilitation of neuromotor functions and motor capabilities, by providing tools that are by nature flexible and programmable and that allow to set and assess procedures quantitatively.Furthermore, rehabilitation robotic systems are:-patient-specific, because they can easily optimize the degree of involvement of the patient by customizing the level of physical and/or cognitive assistance provided during each therapeutic session. -self-motivating, because they can give direct quantitative feedback to the patient about her/his performance during and after the therapy, thus enhancing motivation and self-appraisal of the value of the proposed exercises. -prone to telemedicine application, since many of them can be used at home, or in other locations outside the rehabilitation hospital, under remote supervision and/or tele-controlled by a therapist\physician.Robotic tools also have been proposed and applied not only for motor rehabilitation but also to improve the treatment of cognitive disorders, e.g., to support the psychological enrichment of the elderly.This Special Issue is related to the workshop 'Future trends in Rehabilitation Robotics' organized within the framework of the IEEE International Conference on Biomedical Robotics and Biomechatronics, 2010 whose main objective was to provide an overview of the most recent advances in rehabilitation robotics and to explore new directions in the field, focusing particularly on cognitive aspects of motor control.The articles in this special issue can be classified in three reviews and nine original papers. The reviews address some relevant topics related with the rehabilitation robotics research field: overview of upper-limb rehabilitation devices, different approaches to neurorobotic and hybrid management of lower limb motor disorders and a review about the assessment of the effectiveness of robot-facilitated neurorehabilitation for relearning motor skills. Moreover, the original papers cover a wide range of relevant topics like: virtual rehabilitation, rehabilitation robotic devices to train activities of daily living, electrical stimulation, assessment of upper-limb motor control in robotaided rehabilitation, new assistance algorithms based on adaptative oscillators, upper-limb rehabilitation devices based on pneumatic technology, bilateral robot-mediated therapy and assistive robotic devices for elderly people and for children with special needs.Classical devices for upper-limb rehabilitation clinical research, like ARMin [8], and many others are revised on Rui Loureiro et al. [15]. Tables in this work give a present update of the well-known devices. The paper overviews the current state-of-the-art on...

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Bibliography

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Human Motion Capture and Identification for Assistive Systems Design in Rehabilitation

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3 Jointtype enumeration. https://msdn.microsoft.com/en-us/library/microsoft.kinect .jointtype.aspx. Accessed: 2015-05-22. 4 Kinect for windows features. https://www.microsoft.com/en-us/kinectforwindows/ meetkinect/features.aspx. Accessed: 2015-05-22. 5 Rokoko smartsuit pro. https://www.rokoko.com/en?gclid=CjwKCAjw_47YBRBxEiwAYu KdwynSSU8rlweQF-R8QBmqMjHq_aEzrUOffS7E0CYpc2pRCkeV9LAZ-xoCrT4QAvD_ BwE. Accessed: 2018-05-20. 6 Tracking users with kinect skeletal tracking. https://msdn.microsoft.com/en-us/library/ jj131025.aspx. Accessed: 2015-05-22.

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Quantitative evaluation of upper-limb motor control in robot-aided rehabilitation

Cited by 114 publications

References 50 publications

Quantitative assessment based on kinematic measures of functional impairments during upper extremity movements: A review

Quantitative assessment based on kinematic measures of functional impairments during upper extremity movements: A review

Trends in rehabilitation robotics

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