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10. Characterization of stroke-related upper limb motor impairments across various upper limb activities by use of kinematic core set measures

Author

Schwarz, Anne; https://orcid.org/0000-0001-8943-5673, Bhagubai, Miguel M C; https://orcid.org/0000-0002-2436-1738, Nies, Saskia H G, Held, Jeremia P O; https://orcid.org/0000-0001-5373-2000, Veltink, Peter H; https://orcid.org/0000-0002-1796-9999, Buurke, Jaap H, Luft, Andreas R; https://orcid.org/0000-0001-9865-7382, Schwarz, Anne; https://orcid.org/0000-0001-8943-5673, Bhagubai, Miguel M C; https://orcid.org/0000-0002-2436-1738, Nies, Saskia H G, Held, Jeremia P O; https://orcid.org/0000-0001-5373-2000, Veltink, Peter H; https://orcid.org/0000-0002-1796-9999, Buurke, Jaap H, and Luft, Andreas R; https://orcid.org/0000-0001-9865-7382

Abstract

BACKGROUND Upper limb kinematic assessments provide quantifiable information on qualitative movement behavior and limitations after stroke. A comprehensive characterization of spatiotemporal kinematics of stroke subjects during upper limb daily living activities is lacking. Herein, kinematic expressions were investigated with respect to different movement types and impairment levels for the entire task as well as for motion subphases. METHOD Chronic stroke subjects with upper limb movement impairments and healthy subjects performed a set of daily living activities including gesture and grasp movements. Kinematic measures of trunk displacement, shoulder flexion/extension, shoulder abduction/adduction, elbow flexion/extension, forearm pronation/supination, wrist flexion/extension, movement time, hand peak velocity, number of velocity peaks (NVP), and spectral arc length (SPARC) were extracted for the whole movement as well as the subphases of reaching distally and proximally. The effects of the factors gesture versus grasp movements, and the impairment level on the kinematics of the whole task were tested. Similarities considering the metrics expressions and relations were investigated for the subphases of reaching proximally and distally between tasks and subgroups. RESULTS Data of 26 stroke and 5 healthy subjects were included. Gesture and grasp movements were differently expressed across subjects. Gestures were performed with larger shoulder motions besides higher peak velocity. Grasp movements were expressed by larger trunk, forearm, and wrist motions. Trunk displacement, movement time, and NVP increased and shoulder flexion/extension decreased significantly with increased impairment level. Across tasks, phases of reaching distally were comparable in terms of trunk displacement, shoulder motions and peak velocity, while reaching proximally showed comparable expressions in trunk motions. Consistent metric relations during reaching distally were found between should

Published
2022

11. Correction to: Characterization of stroke-related upper limb motor impairments across various upper limb activities by use of kinematic core set measures

Author

Schwarz, Anne; https://orcid.org/0000-0001-8943-5673, Bhagubai, Miguel M C; https://orcid.org/0000-0002-2436-1738, Nies, Saskia H G, Held, Jeremia P O; https://orcid.org/0000-0001-5373-2000, Veltink, Peter H; https://orcid.org/0000-0002-1796-9999, Buurke, Jaap H, Luft, Andreas R; https://orcid.org/0000-0001-9865-7382, Schwarz, Anne; https://orcid.org/0000-0001-8943-5673, Bhagubai, Miguel M C; https://orcid.org/0000-0002-2436-1738, Nies, Saskia H G, Held, Jeremia P O; https://orcid.org/0000-0001-5373-2000, Veltink, Peter H; https://orcid.org/0000-0002-1796-9999, Buurke, Jaap H, and Luft, Andreas R; https://orcid.org/0000-0001-9865-7382

Published
2022

12. European evidence-based recommendations for clinical assessment of upper limb in neurorehabilitation (CAULIN) : data synthesis from systematic reviews, clinical practice guidelines and expert consensus

Author

Prange-Lasonder, Gerdienke B, Alt Murphy, Margit, Lamers, Ilse, Hughes, Ann-Marie, Buurke, Jaap H, Feys, Peter, Keller, Thierry, Klamroth-Marganska, Verena, Tarkka, Ina M, Timmermans, Annick, Burridge, Jane H, Prange-Lasonder, Gerdienke B, Alt Murphy, Margit, Lamers, Ilse, Hughes, Ann-Marie, Buurke, Jaap H, Feys, Peter, Keller, Thierry, Klamroth-Marganska, Verena, Tarkka, Ina M, Timmermans, Annick, and Burridge, Jane H

Abstract

Background: Technology-supported rehabilitation can help alleviate the increasing need for cost-effective rehabilitation of neurological conditions, but use in clinical practice remains limited. Agreement on a core set of reliable, valid and accessible outcome measures to assess rehabilitation outcomes is needed to generate strong evidence about effectiveness of rehabilitation approaches, including technologies. This paper collates and synthesizes a core set from multiple sources; combining existing evidence, clinical practice guidelines and expert consensus into European recommendations for Clinical Assessment of Upper Limb In Neurorehabilitation (CAULIN). Methods: Data from systematic reviews, clinical practice guidelines and expert consensus (Delphi methodology) were systematically extracted and synthesized using strength of evidence rating criteria, in addition to recommendations on assessment procedures. Three sets were defined: a core set: strong evidence for validity, reliability, responsiveness and clinical utility AND recommended by at least two sources; an extended set: strong evidence OR recommended by at least two sources and a supplementary set: some evidence OR recommended by at least one of the sources. Results: In total, 12 measures (with primary focus on stroke) were included, encompassing body function and activity level of the International Classification of Functioning and Health. The core set recommended for clinical practice and research: Fugl-Meyer Assessment of Upper Extremity (FMA-UE) and Action Research Arm Test (ARAT); the extended set recommended for clinical practice and/or clinical research: kinematic measures, Box and Block Test (BBT), Chedoke Arm Hand Activity Inventory (CAHAI), Wolf Motor Function Test (WMFT), Nine Hole Peg Test (NHPT) and ABILHAND; the supplementary set recommended for research or specific occasions: Motricity Index (MI); Chedoke-McMaster Stroke Assessment (CMSA), Stroke Rehabilitation Assessment Movement (STREAM)

Published
2021

13. Manual physical balance assistance of therapists during gait training of stroke survivors: characteristics and predicting the timing.

Author

Haarman, Juliet A. M., Maartens, Erik, van der Kooij, Herman, Buurke, Jaap H., Reenalda, Jasper, and Rietman, Johan S.

Subjects
STROKE, SACRUM, WALKING, THERAPEUTICS, BIG data, HIP joint physiology, ALGORITHMS, POSTURAL balance, EXERCISE therapy, GAIT disorders, GAIT in humans, MOTION, NEUROLOGICAL disorders, PHYSICAL therapists, RESEARCH evaluation, RESEARCH funding, PREDICTIVE tests, PHYSIOLOGY
Abstract

Background: During gait training, physical therapists continuously supervise stroke survivors and provide physical support to their pelvis when they judge that the patient is unable to keep his balance. This paper is the first in providing quantitative data about the corrective forces that therapists use during gait training. It is assumed that changes in the acceleration of a patient's COM are a good predictor for therapeutic balance assistance during the training sessions Therefore, this paper provides a method that predicts the timing of therapeutic balance assistance, based on acceleration data of the sacrum.Methods: Eight sub-acute stroke survivors and seven therapists were included in this study. Patients were asked to perform straight line walking as well as slalom walking in a conventional training setting. Acceleration of the sacrum was captured by an Inertial Magnetic Measurement Unit. Balance-assisting corrective forces applied by the therapist were collected from two force sensors positioned on both sides of the patient's hips. Measures to characterize the therapeutic balance assistance were the amount of force, duration, impulse and the anatomical plane in which the assistance took place. Based on the acceleration data of the sacrum, an algorithm was developed to predict therapeutic balance assistance. To validate the developed algorithm, the predicted events of balance assistance by the algorithm were compared with the actual provided therapeutic assistance.Results: The algorithm was able to predict the actual therapeutic assistance with a Positive Predictive Value of 87% and a True Positive Rate of 81%. Assistance mainly took place over the medio-lateral axis and corrective forces of about 2% of the patient's body weight (15.9 N (11), median (IQR)) were provided by therapists in this plane. Median duration of balance assistance was 1.1 s (0.6) (median (IQR)) and median impulse was 9.4Ns (8.2) (median (IQR)). Although therapists were specifically instructed to aim for the force sensors on the iliac crest, a different contact location was reported in 22% of the corrections.Conclusions: This paper presents insights into the behavior of therapists regarding their manual physical assistance during gait training. A quantitative dataset was presented, representing therapeutic balance-assisting force characteristics. Furthermore, an algorithm was developed that predicts events at which therapeutic balance assistance was provided. Prediction scores remain high when different therapists and patients were analyzed with the same algorithm settings. Both the quantitative dataset and the developed algorithm can serve as technical input in the development of (robot-controlled) balance supportive devices. [ABSTRACT FROM AUTHOR]

Published
2017
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14. Paretic versus non-paretic stepping responses following pelvis perturbations in walking chronic-stage stroke survivors.

Author

Haarman, Juliet A. M., Vlutters, Mark, Olde Keizer, Richelle A. C. M., van Asseldonk, Edwin H. F., Buurke, Jaap H., Reenalda, Jasper, Rietman, Johan S., and van der Kooij, Herman

Subjects
HEMIPARESIS, PARALYSIS, STROKE, WALKING, MOTOR ability, PELVIS, CHRONIC diseases, FOOT, HEMIPLEGIA, KINEMATICS, LEG, TREATMENT effectiveness, SKELETAL muscle, DISEASE complications
Abstract

Background: The effects of a stroke, such as hemiparesis, can severely hamper the ability to walk and to maintain balance during gait. Providing support to stroke survivors through a robotic exoskeleton, either to provide training or daily-life support, requires an understanding of the balance impairments that result from a stroke. Here, we investigate the differences between the paretic and non-paretic leg in making recovery steps to restore balance following a disturbance during walking.Methods: We perturbed 10 chronic-stage stroke survivors during walking using mediolateral perturbations of various amplitudes. Kinematic data as well as gluteus medius muscle activity levels during the first recovery step were recorded and analyzed.Results: The results show that this group of subjects is able to modulate foot placement in response to the perturbations regardless of the leg being paretic or not. Modulation in gluteus medius activity with the various perturbations is in line with this observation. In general, the foot of the paretic leg was laterally placed further away from the center of mass than that of the non-paretic leg, while subjects spent more time standing on the non-paretic leg.Conclusions: The findings suggest that, though stroke-related gait characteristics are present, the modulation with the various perturbations remains unaffected. This might be because all subjects were only mildly impaired, or because these stepping responses partly occur through involuntary pathways which remain unaffected by the complications after the stroke. [ABSTRACT FROM AUTHOR]

Published
2017
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15. Robot-supported assessment of balance in standing and walking.

Author

Shirota, Camila, van Asseldonk, Edwin, Matjačić, Zlatko, Vallery, Heike, Barralon, Pierre, Maggioni, Serena, Buurke, Jaap H., and Veneman, Jan F.

Subjects
MEDICAL robotics, POSTURAL balance, NEUROLOGICAL disorders, WALKING, POSTURE, MEDICAL rehabilitation, NEUROREHABILITATION, DIAGNOSIS of neurological disorders, PHYSICAL therapy equipment, ROBOTICS
Abstract

Clinically useful and efficient assessment of balance during standing and walking is especially challenging in patients with neurological disorders. However, rehabilitation robots could facilitate assessment procedures and improve their clinical value. We present a short overview of balance assessment in clinical practice and in posturography. Based on this overview, we evaluate the potential use of robotic tools for such assessment. The novelty and assumed main benefits of using robots for assessment are their ability to assess 'severely affected' patients by providing assistance-as-needed, as well as to provide consistent perturbations during standing and walking while measuring the patient's reactions. We provide a classification of robotic devices on three aspects relevant to their potential application for balance assessment: 1) how the device interacts with the body, 2) in what sense the device is mobile, and 3) on what surface the person stands or walks when using the device. As examples, nine types of robotic devices are described, classified and evaluated for their suitability for balance assessment. Two example cases of robotic assessments based on perturbations during walking are presented. We conclude that robotic devices are promising and can become useful and relevant tools for assessment of balance in patients with neurological disorders, both in research and in clinical use. Robotic assessment holds the promise to provide increasingly detailed assessment that allows to individually tailor rehabilitation training, which may eventually improve training effectiveness. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Evaluation of upper extremity neurorehabilitation using technology: a European Delphi consensus study within the EU COST Action Network on Robotics for Neurorehabilitation.

Author

Hughes, Ann-Marie, Barbosa Bouças, Sofia, Burridge, Jane H., Alt Murphy, Margit, Buurke, Jaap, Feys, Peter, Klamroth-Marganska, Verena, Lamers, Ilse, Prange-Lasonder, Gerdienke, Timmermans, Annick, and Keller, Thierry

Subjects
NEUROREHABILITATION, MEDICAL rehabilitation, NEUROLOGICAL disorders, REHABILITATION for brain injury patients, BRAIN damaged patient rehabilitation, ARM physiology, DELPHI method, QUESTIONNAIRES, RESEARCH evaluation, ROBOTICS, ASSISTIVE technology
Abstract

Background: The need for cost-effective neurorehabilitation is driving investment into technologies for patient assessment and treatment. Translation of these technologies into clinical practice is limited by a paucity of evidence for cost-effectiveness. Methodological issues, including lack of agreement on assessment methods, limit the value of meta-analyses of trials. In this paper we report the consensus reached on assessment protocols and outcome measures for evaluation of the upper extremity in neurorehabilitation using technology. The outcomes of this research will be part of the development of European guidelines. Methods: A rigorous, systematic and comprehensive modified Delphi study incorporated questions and statements generation, design and piloting of consensus questionnaire and five consensus experts groups consisting of clinicians, clinical researchers, non-clinical researchers, and engineers, all with working experience of neurological assessments or technologies. For data analysis, two major groups were created: i) clinicians (e.g., practicing therapists and medical doctors) and ii) researchers (clinical and non-clinical researchers (e.g. movement scientists, technology developers and engineers). Results: Fifteen questions or statements were identified during an initial ideas generation round, following which the questionnaire was designed and piloted. Subsequently, questions and statements went through five consensus rounds over 20 months in four European countries. Two hundred eight participants: 60 clinicians (29 %), 35 clinical researchers (17 %), 77 non-clinical researchers (37 %) and 35 engineers (17 %) contributed. At each round questions and statements were added and others removed. Consensus (=69 %) was obtained for 22 statements on i) the perceived importance of recommendations; ii) the purpose of measurement; iii) use of a minimum set of measures; iv) minimum number, timing and duration of assessments; v) use of technology-generated assessments and the restriction of clinical assessments to validated outcome measures except in certain circumstances for research. Conclusions: Consensus was reached by a large international multidisciplinary expert panel on measures and protocols for assessment of the upper limb in research and clinical practice. Our results will inform the development of best practice for upper extremity assessment using technologies, and the formulation of evidence-based guidelines for the evaluation of upper extremity neurorehabilitation. [ABSTRACT FROM AUTHOR]

Published
2016
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17. Ambulatory assessment of walking balance after stroke using instrumented shoes.

Author

van Meulen, Fokke B., Weenk, Dirk, Buurke, Jaap H., van Beijnum, Bert-Jan F., and Veltink, Peter H.

Subjects
OUTPATIENT medical care research, STROKE, WALKING, POSTURAL balance, KINEMATICS, STROKE diagnosis, PATIENT monitoring, SHOES, TORQUE, ULTRASONICS, ACTIVITIES of daily living
Abstract

Background: For optimal guidance of walking rehabilitation therapy of stroke patients in an in-home setting, a small and easy to use wearable system is needed. In this paper we present a new shoe-integrated system that quantifies walking balance during activities of daily living and is not restricted to a lab environment. Quantitative parameters were related to clinically assessed level of balance in order to assess the additional information they provide.Methods: Data of 13 participants who suffered a stroke were recorded while walking 10 meter trials and wearing special instrumented shoes. The data from 3D force and torque sensors, 3D inertial sensors and ultrasound transducers were fused to estimate 3D (relative) position, velocity, orientation and ground reaction force of each foot. From these estimates, center of mass and base of support were derived together with a dynamic stability margin, which is the (velocity) extrapolated center of mass with respect to the front-line of the base of support in walking direction. Additionally, for each participant step lengths and stance times for both sides as well as asymmetries of these parameters were derived.Results: Using the proposed shoe-integrated system, a complete reconstruction of the kinematics and kinetics of both feet during walking can be made. Dynamic stability margin and step length symmetry were not significantly correlated with Berg Balance Scale (BBS) score, but participants with a BBS score below 45 showed a small-positive dynamic stability margin and more asymmetrical step lengths. More affected participants, having a lower BBS score, have a lower walking speed, make smaller steps, longer stance times and have more asymmetrical stance times.Conclusions: The proposed shoe-integrated system and data analysis methods can be used to quantify daily-life walking performance and walking balance, in an ambulatory setting without the use of a lab restricted system. The presented system provides additional insight about the balance mechanism, via parameters describing walking patterns of an individual subject. This information can be used for patient specific and objective evaluation of walking balance and a better guidance of therapies during the rehabilitation.Trial Registration: The study protocol is a subset of a larger protocol and registered in the Netherlands Trial Registry, number NTR3636 . [ABSTRACT FROM AUTHOR]

Published
2016
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18. Feasibility study into self-administered training at home using an arm and hand device with motivational gaming environment in chronic stroke.

Author

Nijenhuis, Sharon M., Prange, Gerdienke B., Amirabdollahian, Farshid, Sale, Patrizio, Infarinato, Francesco, Nasr, Nasrin, Mountain, Gail, Hermens, Hermie J., Stienen, Arno H. A., Buurke, Jaap H., and Rietman, Johan S.

Subjects
ARM, CHRONIC diseases, CLINICAL trials, HAND, HEMIPLEGIA, HOME care services, LEARNING, LONGITUDINAL method, MATHEMATICS, ORTHOPEDIC apparatus, MOTIVATION (Psychology), ROBOTICS, HEALTH self-care, USER interfaces, WRIST, PILOT projects, STROKE rehabilitation
Abstract

Background: Assistive and robotic training devices are increasingly used for rehabilitation of the hemiparetic arm after stroke, although applications for the wrist and hand are trailing behind. Furthermore, applying a training device in domestic settings may enable an increased training dose of functional arm and hand training. The objective of this study was to assess the feasibility and potential clinical changes associated with a technology-supported arm and hand training system at home for patients with chronic stroke. Methods: A dynamic wrist and hand orthosis was combined with a remotely monitored user interface with motivational gaming environment for self-administered training at home. Twenty-four chronic stroke patients with impaired arm/hand function were recruited to use the training system at home for six weeks. Evaluation of feasibility involved training duration, usability and motivation. Clinical outcomes on arm/hand function, activity and participation were assessed before and after six weeks of training and at two-month follow-up. Results: Mean System Usability Scale score was 69 % (SD 17 %), mean Intrinsic Motivation Inventory score was 5.2 (SD 0.9) points, and mean training duration per week was 105 (SD 66) minutes. Median Fugl-Meyer score improved from 37 (IQR 30) pre-training to 41 (IQR 32) post-training and was sustained at two-month follow-up (40 (IQR 32)). The Stroke Impact Scale improved from 56.3 (SD 13.2) pre-training to 60.0 (SD 13.9) post-training, with a trend at follow-up (59.8 (SD 15.2)). No significant improvements were found on the Action Research Arm Test and Motor Activity Log. Conclusions: Remotely monitored post-stroke training at home applying gaming exercises while physically supporting the wrist and hand showed to be feasible: participants were able and motivated to use the training system independently at home. Usability shows potential, although several usability issues need further attention. Upper extremity function and quality of life improved after training, although dexterity did not. These findings indicate that home-based arm and hand training with physical support from a dynamic orthosis is a feasible tool to enable self-administered practice at home. Such an approach enables practice without dependence on therapist availability, allowing an increase in training dose with respect to treatment in supervised settings. Trial Registration: This study has been registered at the Netherlands Trial Registry (NTR): NTR3669 . [ABSTRACT FROM AUTHOR]

Published
2015
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19. The effect of impedance-controlled robotic gait training on walking ability and quality in individuals with chronic incomplete spinal cord injury: an explorative study.

Author

Fleerkotte, Bertine M., Koopman, Bram, Buurke, Jaap H., van Asseldonk, Edwin H. F., van der Kooij, Herman, and Rietman, Johan S.

Subjects
ROBOTICS, SPINAL cord injuries, THERAPEUTICS, KINEMATICS, RANGE of motion of joints, GAIT in humans
Abstract

Background There is increasing interest in the use of robotic gait-training devices in walking rehabilitation of incomplete spinal cord injured (iSCI) individuals. These devices provide promising opportunities to increase the intensity of training and reduce physical demands on therapists. Despite these potential benefits, robotic gait-training devices have not yet demonstrated clear advantages over conventional gait-training approaches, in terms of functional outcomes. This might be due to the reduced active participation and step-to-step variability in most robotic gait-training strategies, when compared to manually assisted therapy. Impedance-controlled devices can increase active participation and step-to-step variability. The aim of this study was to assess the effect of impedance-controlled robotic gait training on walking ability and quality in chronic iSCI individuals. Methods A group of 10 individuals with chronic iSCI participated in an explorative clinical trial. Participants trained three times a week for eight weeks using an impedance-controlled robotic gait trainer (LOPES: LOwer extremity Powered ExoSkeleton). Primary outcomes were the 10-meter walking test (10MWT), the Walking Index for Spinal Cord Injury (WISCI II), the six-meter walking test (6MWT), the Timed Up and Go test (TUG) and the Lower Extremity Motor Scores (LEMS). Secondary outcomes were spatiotemporal and kinematics measures. All participants were tested before, during, and after training and at 8 weeks follow-up. Results Participants experienced significant improvements in walking speed (0.06 m/s, p = 0.008), distance (29 m, p = 0.005), TUG (3.4 s, p = 0.012), LEMS (3.4, p = 0.017) and WISCI after eight weeks of training with LOPES. At the eight-week follow-up, participants retained the improvements measured at the end of the training period. Significant improvements were also found in spatiotemporal measures and hip range of motion. Conclusion Robotic gait training using an impedance-controlled robot is feasible in gait rehabilitation of chronic iSCI individuals. It leads to improvements in walking ability, muscle strength, and quality of walking. Improvements observed at the end of the training period persisted at the eight-week follow-up. Slower walkers benefit the most from the training protocol and achieve the greatest relative improvement in speed and walking distance. [ABSTRACT FROM AUTHOR]

Published
2014
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20. Influence of gravity compensation training on synergistic movement patterns of the upper extremity after stroke, a pilot study.

Author

Krabben, Thijs, Prange, Gerdienke B., Molier, Birgit I., Stienen, Arno H. A., Jannink, Michiel J. A., Buurke, Jaap H., and Rietman, Johan S.

Subjects
CEREBROVASCULAR disease patients, ARM, STANDARD deviations, EXTREMITIES (Anatomy), ELECTRONIC games
Abstract

Background: The majority of stroke patients have to cope with impaired arm function. Gravity compensation of the arm instantaneously affects abnormal synergistic movement patterns. The goal of the present study is to examine whether gravity compensated training improves unsupported arm function. Methods: Seven chronic stroke patients received 18 half-hour sessions of gravity compensated reach training, in a period of six weeks. During training a motivating computer game was played. Before and after training arm function was assessed with the Fugl-Meyer assessment and a standardized, unsupported circle drawing task. Synergistic movement patterns were identified based on concurrent changes in shoulder elevation and elbow flexion/extension angles. Results: Median increase of Fugl-Meyer scores was 3 points after training. The training led to significantly increased work area of the hemiparetic arm, as indicated by the normalized circle area. Roundness of the drawn circles and the occurrence of synergistic movement patterns remained similar after the training. Conclusions: A decreased strength of involuntary coupling might contribute to the increased arm function after training. More research is needed to study working mechanisms involved in post stroke rehabilitation training. The used training setup is simple and affordable and is therefore suitable to use in clinical settings. [ABSTRACT FROM AUTHOR]

Published
2012
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21. Circle drawing as evaluative movement task in stroke rehabilitation: an explorative study.

Author

Krabben, Thijs, Molier, Birgit I., Houwink, Annemieke, Rietman, Johan S., Buurke, Jaap H., and Prange, Gerdienke B.

Subjects
CEREBROVASCULAR disease, HEALTH outcome assessment, CLINICAL medicine, MEDICAL rehabilitation, JOINTS (Anatomy)
Abstract

Background: The majority of stroke survivors have to cope with deficits in arm function, which is often measured with subjective clinical scales. The objective of this study is to examine whether circle drawing metrics are suitable objective outcome measures for measuring upper extremity function of stroke survivors. Methods: Stroke survivors (n = 16) and healthy subjects (n = 20) drew circles, as big and as round as possible, above a table top. Joint angles and positions were measured. Circle area and roundness were calculated, and synergistic movement patterns were identified based on simultaneous changes of the elevation angle and elbow angle. Results: Stroke survivors had statistically significant lower values for circle area, roundness and joint excursions, compared to healthy subjects. Stroke survivors moved significantly more within synergistic movement patterns, compared to healthy subjects. Strong correlations between the proximal upper extremity part of the Fugl-Meyer scale and circle area, roundness, joint excursions and the use of synergistic movement patterns were found. Conclusions: The present study showed statistically significant differences in circle area, roundness and the use of synergistic movement patterns between healthy subjects and stroke survivors. These circle metrics are strongly correlated to stroke severity, as indicated by the proximal upper extremity part of the FM score. In clinical practice, circle area and roundness can give useful objective information regarding arm function of stroke survivors. In a research setting, outcome measures addressing the occurrence of synergistic movement patterns can help to increase understanding of mechanisms involved in restoration of post stroke upper extremity function. [ABSTRACT FROM AUTHOR]

Published
2011
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22. Flexor Hallucis Longus tendon rupture in RA-patients is associated with MTP 1 damage and pes planus.

Author

Baan, Henriette, Drossaers-Bakkers, Wiepke K., Dubbeldam, Rosemary, Buurke, Jaap J., Nene, Anand, and van de Laar, Martin A. F. J.

Subjects
FLEXOR hallucis longus, FLEXOR tendons, TENDON injuries, RHEUMATOID arthritis, FLATFOOT, DISEASE prevalence, RANGE of motion of joints, WOUNDS & injuries
Abstract

Background: To assess the prevalence of and relation between rupture or tenosynovitis of the Flexor Hallucis Longus (FHL) tendon and range of motion, deformities and joint damage of the forefoot in RA patients with foot complaints. Methods: Thirty RA patients with painful feet were analysed, their feet were examined clinically for the presence of pes planus and range of motion (ROM), radiographs were scored looking for the presence of forefoot damage, and ultrasound examination was performed, examining the presence of tenosyovitis or rupture of the FHL at the level of the medial malleolus. The correlation between the presence or absence of the FHL and ROM, forefoot damage and pes planus was calculated. Results: In 11/60(18%) of the feet, a rupture of the FHL was found. This was associated with a limited motion of the MTP1-joint, measured on the JAM (χ² = 10.4, p = 0.034), a higher prevalence of pes planus (χ² = 5.77, p = 0.016) and a higher prevalence of erosions proximal at the MTP-1 joint (χ² = 12.3, p = 0.016), and joint space narrowing of the MTP1 joint (χ² = 12.7, p = 0.013). Conclusion: Rupture of the flexor hallucis longus tendon in RA-patients is associated with limited range of hallux motion, more erosions and joint space narrowing of the MTP-1-joint, as well as with pes planus. [ABSTRACT FROM AUTHOR]

Published
2007
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23. Training modalities in robot-mediated upper limb rehabilitation in stroke: a framework for classification based on a systematic review.

Author

Basteris A, Nijenhuis SM, Stienen AH, Buurke JH, Prange GB, and Amirabdollahian F

Subjects
Humans, Exercise Therapy instrumentation, Robotics instrumentation, Stroke Rehabilitation, Upper Extremity physiopathology
Abstract

Robot-mediated post-stroke therapy for the upper-extremity dates back to the 1990s. Since then, a number of robotic devices have become commercially available. There is clear evidence that robotic interventions improve upper limb motor scores and strength, but these improvements are often not transferred to performance of activities of daily living. We wish to better understand why. Our systematic review of 74 papers focuses on the targeted stage of recovery, the part of the limb trained, the different modalities used, and the effectiveness of each. The review shows that most of the studies so far focus on training of the proximal arm for chronic stroke patients. About the training modalities, studies typically refer to active, active-assisted and passive interaction. Robot-therapy in active assisted mode was associated with consistent improvements in arm function. More specifically, the use of HRI features stressing active contribution by the patient, such as EMG-modulated forces or a pushing force in combination with spring-damper guidance, may be beneficial.Our work also highlights that current literature frequently lacks information regarding the mechanism about the physical human-robot interaction (HRI). It is often unclear how the different modalities are implemented by different research groups (using different robots and platforms). In order to have a better and more reliable evidence of usefulness for these technologies, it is recommended that the HRI is better described and documented so that work of various teams can be considered in the same group and categories, allowing to infer for more suitable approaches. We propose a framework for categorisation of HRI modalities and features that will allow comparing their therapeutic benefits.

Published
2014
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