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16 results on '"van Beijnum, B. J. F."'

1. Requirements for home-based upper extremity rehabilitation using wearable motion sensors for stroke patients: a user-centred approach.

Author

Langerak, A. J., Regterschot, G. R. H., Selles, R. W., Meskers, C. G. M., Evers, M., Ribbers, G. M., van Beijnum, B. J. F., and Bussmann, J. B. J.

Subjects
PHYSICAL therapy, HOME care services, ARM, RESEARCH funding, EXERCISE therapy, FUNCTIONAL assessment, WEARABLE technology, TELEREHABILITATION, DESCRIPTIVE statistics, STROKE rehabilitation, LITERATURE reviews, STROKE patients, STAKEHOLDER analysis
Abstract

Telerehabilitation systems have the potential to enable therapists to monitor and assist stroke patients in achieving high-intensity upper extremity exercise in the home environment. We adopted an iterative user-centred approach, including multiple data sources and meetings with end-users and stakeholders to define the user requirements for home-based upper extremity rehabilitation using wearable motion sensors for subacute stroke patients. We performed a requirement analysis consisting of the following steps: 1) context & groundwork; 2) eliciting requirements; 3) modelling & analysis; 4) agreeing requirements. During these steps, a pragmatic literature search, interviews and focus groups with stroke patients, physiotherapists and occupational therapists were performed. The results were systematically analysed and prioritised into "must-haves", "should-haves", and "could-haves". We formulated 33 functional requirements: eighteen must-have requirements related to blended care (2), exercise principles (7), exercise delivery (3), exercise evaluation (4), and usability (2); ten should-haves; and five could-haves. Six movement components, including twelve exercises and five combination exercises, are required. For each exercise, appropriate exercise measures were defined. This study provides an overview of functional requirements, required exercises, and required exercise measures for home-based upper extremity rehabilitation using wearable motion sensors for stroke patients, which can be used to develop home-based upper extremity rehabilitation interventions. Moreover, the comprehensive and systematic requirement analysis used in this study can be applied by other researchers and developers when extracting requirements for designing a system or intervention in a medical context. This study provides an extensive overview of user requirements for home-based upper extremity rehabilitation using wearable motion sensors in stroke patients. These requirements can be used as a basis for developing home-based UE telerehabilitation interventions. Including these requirements may facilitate the clinical implementation of such telerehabilitation systems. The comprehensive and systematic approach used in this sudy can be applied by other researchers and developers when extracting requirements for designing a system or intervention in a medical context. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Design of an Online Charging System to Support IMS-Based Inter-domain Composite Services

Author

van Le, M., Huitema, G. B., Rumph, F. J., Nieuwenhuis, L. J. M., van Beijnum, B. J. F., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Pfeifer, Tom, editor, and Bellavista, Paolo, editor

Published
2009
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5. Accelerometer-Based Identification of Fatigue in the Lower Limbs during Cyclical Physical Exercise:A Systematic Review

Author

Marotta, L., Scheltinga, B. L., van Middelaar, R., Bramer, W. M., van Beijnum, B. J. F., Reenalda, J., Buurke, J. H., Marotta, L., Scheltinga, B. L., van Middelaar, R., Bramer, W. M., van Beijnum, B. J. F., Reenalda, J., and Buurke, J. H.

Abstract

Physical exercise (PE) is beneficial for both physical and psychological health aspects. However, excessive training can lead to physical fatigue and an increased risk of lower limb injuries. In order to tailor training loads and durations to the needs and capacities of an individual, physical fatigue must be estimated. Different measurement devices and techniques (i.e., ergospirometers, electromyography, and motion capture systems) can be used to identify physical fatigue. The field of biomechanics has succeeded in capturing changes in human movement with optical systems, as well as with accelerometers or inertial measurement units (IMUs), the latter being more user-friendly and adaptable to real-world scenarios due to its wearable nature. There is, however, still a lack of consensus regarding the possibility of using biomechanical parameters measured with accelerometers to identify physical fatigue states in PE. Nowadays, the field of biomechanics is beginning to open towards the possibility of identifying fatigue state using machine learning algorithms. Here, we selected and summarized accelerometer-based articles that either (a) performed analyses of biomechanical parameters that change due to fatigue in the lower limbs or (b) performed fatigue identification based on features including biomechanical parameters. We performed a systematic literature search and analysed 39 articles on running, jumping, walking, stair climbing, and other gym exercises. Peak tibial and sacral acceleration were the most common measured variables and were found to significantly increase with fatigue (respectively, in 6/13 running articles and 2/4 jumping articles). Fatigue classification was performed with an accuracy between 78% and 96% and Pearson’s correlation with an RPE (rate of perceived exertion) between r = 0.79 and r = 0.95. We recommend future effort toward the standardization of fatigue protocols and methods across articles in order to generalize fatigue identification r

Published
2022

6. sj-pdf-1-nnr-10.1177_15459683211062890 ��� Supplemental Material for Combined Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review

Author

Saes, M., Mohamed Refai, M. I., van Beijnum, B. J. F., Bussmann, J. B. J., Jansma, E. P., Veltink, P. H., Buurke, J. H., van Wegen, E. E. H., Meskers, C. G. M., Krakauer, J. W., and Kwakkel, G.

Subjects
FOS: Clinical medicine, 110308 Geriatrics and Gerontology, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental Material, sj-pdf-1-nnr-10.1177_15459683211062890 for Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review by M. Saes, M.I. Mohamed Refai, B.J.F. van Beijnum, J.B.J. Bussmann, E.P. Jansma, P.H. Veltink, J.H. Buurke, E.E.H. van Wegen, C.G.M. Meskers, J.W. Krakauer and G. Kwakkel in Neurorehabilitation and Neural Repair

Published
2022
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7. sj-pdf-2-nnr-10.1177_15459683211062890 ��� Supplemental Material for Combined Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review

Author

Saes, M., Mohamed Refai, M. I., van Beijnum, B. J. F., Bussmann, J. B. J., Jansma, E. P., Veltink, P. H., Buurke, J. H., van Wegen, E. E. H., Meskers, C. G. M., Krakauer, J. W., and Kwakkel, G.

Subjects
FOS: Clinical medicine, 110308 Geriatrics and Gerontology, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental Material, sj-pdf-2-nnr-10.1177_15459683211062890 for Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review by Mique. Saes, Mohamed Irfan Mohamed Refai, Bert-Jan F. van Beijnum, J.B.J. Bussmann, E.P. Jansma, Peter.H. Veltink, Jaap.H. Buurke, Erwin.E.H. van Wegen, Carel.G.M. Meskers, John.W. Krakauer and Gert. Kwakkel in Neurorehabilitation and Neural Repair

Published
2022
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8. sj-pdf-5-nnr-10.1177_15459683211062890 ��� Supplemental Material for Combined Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review

Author

Saes, M., Mohamed Refai, M. I., van Beijnum, B. J. F., Bussmann, J. B. J., Jansma, E. P., Veltink, P. H., Buurke, J. H., van Wegen, E. E. H., Meskers, C. G. M., Krakauer, J. W., and Kwakkel, G.

Subjects
FOS: Clinical medicine, 110308 Geriatrics and Gerontology, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental Material, sj-pdf-5-nnr-10.1177_15459683211062890 for Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review by Mique. Saes, Mohamed Irfan Mohamed Refai, Bert-Jan F. van Beijnum, J.B.J. Bussmann, E.P. Jansma, Peter.H. Veltink, Jaap.H. Buurke, Erwin.E.H. van Wegen, Carel.G.M. Meskers, John.W. Krakauer and Gert. Kwakkel in Neurorehabilitation and Neural Repair

Published
2022
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9. sj-pdf-3-nnr-10.1177_15459683211062890 ��� Supplemental Material for Combined Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review

Author

Saes, M., Mohamed Refai, M. I., van Beijnum, B. J. F., Bussmann, J. B. J., Jansma, E. P., Veltink, P. H., Buurke, J. H., van Wegen, E. E. H., Meskers, C. G. M., Krakauer, J. W., and Kwakkel, G.

Subjects
FOS: Clinical medicine, 110308 Geriatrics and Gerontology, 110904 Neurology and Neuromuscular Diseases, Neuroscience
Abstract

Supplemental Material, sj-pdf-3-nnr-10.1177_15459683211062890 for Quantifying Quality of Reaching Movements Longitudinally Post-Stroke: A Systematic Review by Mique. Saes, Mohamed Irfan Mohamed Refai, Bert-Jan F. van Beijnum, J.B.J. Bussmann, E.P. Jansma, Peter.H. Veltink, Jaap.H. Buurke, Erwin.E.H. van Wegen, Carel.G.M. Meskers, John.W. Krakauer and Gert. Kwakkel in Neurorehabilitation and Neural Repair

Published
2022
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13. Daily-life tele-monitoring of motor performance in stroke survivors

Author

Veltink, P. H., van Meulen, F. B., van Beijnum, B. J. F., Klaassen, B., Hermens, H. J., Droog, E., Weusthof, M. H. H., Lorussi, Federico, Tognetti, Alessandro, Reenalda, J., Nikamp, C. D. M., Baten, C. T. M., Buurke, J. H., Held, J., Luft, A., Luinge, H., De Toma, G., Mancuso, C., and Paradiso, R.

Subjects
reaching and grasping, functional performance, balance, Keywords-stroke, daily-life monitoring, balance, reaching and grasping, functional performance, functional capacity, functional capacity, Keywords-stroke, daily-life monitoring
Published
2014

16. Usability in telemedicine systems-A literature survey.

Author

Klaassen B, van Beijnum BJ, and Hermens HJ

Subjects
Humans, Telemedicine methods, Delivery of Health Care, Telemedicine statistics & numerical data, User-Computer Interface
Abstract

Introduction: The rapid development of sensors and communication technologies enable the growth of new innovative services in healthcare, such as Telemedicine. An essential ingredient in the development of a telemedicine system and its final acceptance by end users are usability studies. The principles of usability engineering, evaluations and telemedicine are well established, and it may contribute to the adoption and eventually deployment of such systems and services. An in-depth usability analysis, including performance and attitude measures, requires knowledge about available usability techniques, and is depending on the amount of resources. Therefore it is worth investigating how usability methods are applied in developing telemedicine systems. Our hypothesis is: with increasing research and development of telemedicine systems, we expect that various usability methods are more equally employed for different end-user groups and applications., Method: A literature survey was conducted to find telemedicine systems that have been evaluated for usability or ease of use. The elements of the PICO framework were used as a basis for the selection criteria in the literature search. The search was not limited by year. Two independent reviewers screened all search results first by title, and then by abstract for inclusion. Articles were included up to May 2015., Results: In total, 127 publications were included in this survey. The number of publications on telemedicine systems significantly increased after 2008. Older adults and end-users with cardiovascular conditions were among largest target end-user groups. Remote monitoring systems were found the most, in 90 publications. Questionnaires are the most common means for evaluating telemedicine systems, and were found in 88 publications. Questionnaires are used frequently in studies focusing on cardiovascular diseases, Parkinson's disease and older adult conditions. Interviews are found the most in publications related to stroke. In total 71% of the publications were trial-orientated and the remaining process orientated. An increase in telemedicine research, development and applications is found worldwide, with the majority of publications conducted in America., Discussion and Conclusion: Monitoring patients in their homes can lead to better healthcare at lower costs which implies an increased demand of new healthcare strategies like telemedicine. We expected that with the increase in telemedicine research and development, a greater range of usability methods would also be employed in the included publications. This is not the case. Researchers employed questionnaires as a preferred usability method for each type of telemedicine system and most end-users. However, in process-orientated studies a greater range of usability evaluations were applied, with fewer differences found in the amount of publications for each evaluation method. Questionnaires enable researchers to evaluate a system quickly on end users, as it requires less expertise on the evaluation method compared to the other methods. They are easily distributed and are customizable. The use of questionnaires is therefore an evaluation method of choice for a variety of telemedicine systems and end-users., (Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.)

Published
2016
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