Clara Selves, Thierry Lejeune, Christine Detrembleur, Marie-Adeline Haustrate, Gaëtant Stoquart
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Twenty-four people with arm impairment after stroke were evaluated with the w-EOD and clinical assessment (MAS and MTS), twice on the same day (short-term reliability) and once 10 days later (long-term reliability). For criterion validity, a Spearman coefficient ( r ) was calculated between stiffness values and the clinical scales. For reliability, intraclass correlation coefficients (ICCs), SEM, and MDC95 were calculated. Moderate correlations were observed between EL max and MAS ( r = 0.49) and MTS (V2, r = 0.43; V3, r = 0.49) of the wrist flexors, and finger flexors (MAS, r = 0.60; MTS V2, r = 0.56; MTS V3, r = 0.55). There was a poor correlation between the clinical scales and VI and L-path. Reliability was excellent for all stiffness measurements at short term (EL max : 0.95, VI: 0.94, L-path: 0.92) and good at long term (EL max : 0.87, VI: 0.76, L-path: 0.82). In conclusion, stiffness measurements are valid and reliable to evaluate hyper-resistance in people with stroke.</p>","PeriodicalId":14301,"journal":{"name":"International Journal of Rehabilitation Research","volume":"46 2","pages":"170-177"},"PeriodicalIF":1.5000,"publicationDate":"2023-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Validity and reliability of the assessment of hand flexors stiffness using a new electromechanical oscillatory device in people with stroke.\",\"authors\":\"Clara Selves, Thierry Lejeune, Christine Detrembleur, Marie-Adeline Haustrate, Gaëtant Stoquart\",\"doi\":\"10.1097/MRR.0000000000000574\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Hyper-resistance after a central nervous system injury has been largely referred to as spasticity, which is but one of its neural components. Assessment largely relies on clinical scales (Modified Ashworth scale - MAS and Modified Tardieu scale, MTS) which are unable to distinguish between the non-neural (tissue-related) and the neural (central nervous system-related) components. This study assessed criterion validity and reliability (reproducibility) of muscle stiffness measures, namely, maximum elastic stiffness (ELmax), viscous stiffness (VI), and path length (L-path) in the hand flexor muscles among people with stroke. Measurements were obtained with a wrist-electromechanical oscillatory device (w-EOD). Twenty-four people with arm impairment after stroke were evaluated with the w-EOD and clinical assessment (MAS and MTS), twice on the same day (short-term reliability) and once 10 days later (long-term reliability). For criterion validity, a Spearman coefficient ( r ) was calculated between stiffness values and the clinical scales. For reliability, intraclass correlation coefficients (ICCs), SEM, and MDC95 were calculated. Moderate correlations were observed between EL max and MAS ( r = 0.49) and MTS (V2, r = 0.43; V3, r = 0.49) of the wrist flexors, and finger flexors (MAS, r = 0.60; MTS V2, r = 0.56; MTS V3, r = 0.55). There was a poor correlation between the clinical scales and VI and L-path. Reliability was excellent for all stiffness measurements at short term (EL max : 0.95, VI: 0.94, L-path: 0.92) and good at long term (EL max : 0.87, VI: 0.76, L-path: 0.82). 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引用次数: 0
摘要
中枢神经系统损伤后的超抵抗在很大程度上被称为痉挛,这只是其神经成分之一。评估主要依赖于临床量表(改良Ashworth量表- MAS和改良Tardieu量表,MTS),这些量表无法区分非神经(组织相关)和神经(中枢神经系统相关)成分。本研究评估了中风患者手部屈肌的最大弹性刚度(ELmax)、粘性刚度(VI)和路径长度(L-path)肌肉刚度测量的标准效度和可靠性(可重复性)。测量是通过手腕机电振荡装置(w-EOD)获得的。对24例脑卒中后手臂损伤患者进行w-EOD和临床评估(MAS和MTS),当天2次(短期信度),10天后1次(长期信度)。对于标准效度,计算刚度值和临床量表之间的Spearman系数(r)。为了提高可靠性,我们计算了类内相关系数(ICCs)、SEM和MDC95。EL max与MAS (r = 0.49)和MTS (V2, r = 0.43;腕屈肌V3, r = 0.49)和指屈肌(MAS, r = 0.60;MTS V2, r = 0.56;MTS V3, r = 0.55)。临床量表与VI、L-path相关性较差。所有刚度测量在短期(EL max: 0.95, VI: 0.94, L-path: 0.92)和长期(EL max: 0.87, VI: 0.76, L-path: 0.82)的可靠性都很好。总之,刚度测量是有效和可靠的评估卒中患者的超抵抗。
Validity and reliability of the assessment of hand flexors stiffness using a new electromechanical oscillatory device in people with stroke.
Hyper-resistance after a central nervous system injury has been largely referred to as spasticity, which is but one of its neural components. Assessment largely relies on clinical scales (Modified Ashworth scale - MAS and Modified Tardieu scale, MTS) which are unable to distinguish between the non-neural (tissue-related) and the neural (central nervous system-related) components. This study assessed criterion validity and reliability (reproducibility) of muscle stiffness measures, namely, maximum elastic stiffness (ELmax), viscous stiffness (VI), and path length (L-path) in the hand flexor muscles among people with stroke. Measurements were obtained with a wrist-electromechanical oscillatory device (w-EOD). Twenty-four people with arm impairment after stroke were evaluated with the w-EOD and clinical assessment (MAS and MTS), twice on the same day (short-term reliability) and once 10 days later (long-term reliability). For criterion validity, a Spearman coefficient ( r ) was calculated between stiffness values and the clinical scales. For reliability, intraclass correlation coefficients (ICCs), SEM, and MDC95 were calculated. Moderate correlations were observed between EL max and MAS ( r = 0.49) and MTS (V2, r = 0.43; V3, r = 0.49) of the wrist flexors, and finger flexors (MAS, r = 0.60; MTS V2, r = 0.56; MTS V3, r = 0.55). There was a poor correlation between the clinical scales and VI and L-path. Reliability was excellent for all stiffness measurements at short term (EL max : 0.95, VI: 0.94, L-path: 0.92) and good at long term (EL max : 0.87, VI: 0.76, L-path: 0.82). In conclusion, stiffness measurements are valid and reliable to evaluate hyper-resistance in people with stroke.
期刊介绍:
International Journal of Rehabilitation Research is a quarterly, peer-reviewed, interdisciplinary forum for the publication of research into functioning, disability and contextual factors experienced by persons of all ages in both developed and developing societies. The wealth of information offered makes the journal a valuable resource for researchers, practitioners, and administrators in such fields as rehabilitation medicine, outcome measurement nursing, social and vocational rehabilitation/case management, return to work, special education, social policy, social work and social welfare, sociology, psychology, psychiatry assistive technology and environmental factors/disability. Areas of interest include functioning and disablement throughout the life cycle; rehabilitation programmes for persons with physical, sensory, mental and developmental disabilities; measurement of functioning and disability; special education and vocational rehabilitation; equipment access and transportation; information technology; independent living; consumer, legal, economic and sociopolitical aspects of functioning, disability and contextual factors.