Tytuł artykułu
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Warianty tytułu
Języki publikacji
Abstrakty
The consistency of torque measurements during repetitive moving arm movements and also during passive wrist movements at two angular velocities of slow (~6°/s) and moderate (~120°/s) was investigated. The designed and developed device was applied to 3 cases, to a spring, to 8 able-bodied subjects and to 2 hemiplegic patients. While the mean of the intraclass correlation coefficient of subjects were 0.65 and 0.75 for slow and moderate angular velocities, those of the hemiplegic patients and the spring respectively ranged between excellent values of 0.93–1 and 0.91–1. The Pearson's product-moment correlation coefficients of the 3 cases for the 2 slow and moderate angular velocities ranged between 0.80 and 1. We could verify that the device can be used in our future researches and it can (1) reliably rotate a moving arm horizontally with angular velocities between 3 and 350°/s constantly in a range of motion between -60 and 60° and (2) simultaneously capture the data of angular displacement, torque, and two electromyogram activities. For the standardization of our future studies with the device, we could verify the stability of the last two repeated passive wrist movements in case of patients. The results of the study with the able-bodied subjects are also important as a reference for our studies with the hemiplegic.
Wydawca
Czasopismo
Rocznik
Tom
Strony
114--123
Opis fizyczny
Bibliogr. 23 poz., rys., tab., wykr.
Twórcy
autor
- Fujita Memorial Nanakuri Institute, Fujita Health University, 423 Oodori-Cho, Tsu, 514-1296 Mie, Japan
autor
- Fujita Memorial Nanakuri Institute, Fujita Health University, 423 Oodori-Cho, Tsu, 514-1296 Mie, Japan
autor
- Fujita Memorial Nanakuri Institute, Fujita Health University, 423 Oodori-Cho, Tsu, 514-1296 Mie, Japan
autor
- Fujita Memorial Nanakuri Institute, Fujita Health University, 423 Oodori-Cho, Tsu, 514-1296 Mie, Japan
autor
- Fujita Memorial Nanakuri Institute, Fujita Health University, 423 Oodori-Cho, Tsu, 514-1296 Mie, Japan
autor
- Fujita Memorial Nanakuri Institute, Fujita Health University, 423 Oodori-Cho, Tsu, 514-1296 Mie, Japan
autor
- Department of Rehabilitation Medicine II, School of Medicine, Fujita Health University, Tsu, Mie, Japan
Bibliografia
- [1] O'Dwyer NJ, Ada L, Neilson PD. Spasticity and muscle contracture following stroke. Brain 1996;119:1737–49.
- [2] Pandyan AD, Gregoric M, Barnes MP, Wood D, Van Wijck F, Burridge J, et al. Spasticity: clinical perceptions, neurological realities and meaningful measurement. Disabil Rehabil 2005;27:2–6.
- [3] Lance JW. Symposium synopsis. In: Feldman RG, Young RR, Koella WP, editors. Spasticity: disordered motor control. Chicago: Year Book Medical; 1980. p. 485–94.
- [4] Leger AB, Milner TE. Passive and active wrist joint stiffness following eccentric exercise. Eur J Appl Physiol 2000;82:472–9.
- [5] DeVries HA. Quantitative electromyographic investigation of the spasm theory of muscle pain. Am J Phys Med 1966;45:119–34.
- [6] Clarkson PM, Nosaka K, Braun B. Muscle function after exercise-induced muscle damage and rapid adaptation. Med Sci Sports Exerc 1992;24:512–20.
- [7] Howell JN, Chila AG, Ford G, David D, Gates T. An electromyographic study of elbow motion during post exercise muscle soreness. J Appl Physiol 1985;58:1713–8.
- [8] Lindberg PG, Gaeverth PT, Islam M, Fagergre A, Borg J, Forssberg H. Validation of a new biomechanical model to measure muscle tone in spastic muscles. Neurorehabil Neural Repair 2011;25(7):617–25.
- [9] Pandyan AD, Wijck FFJ, Stark S, Vuadens P, Johnson GR, Barnes MP. The construct of a spasticity measurement device for clinical practice: an alternative to the Ashworth scales. Disabil Rehabil 2006;28(9):576–85.
- [10] Pisano F, Miscio G, Del Conte C, Pianca D, Candeloro E, Colombo R. Quantitative measures of spasticity in post-stroke patients. Clin Neurophysiol 2000;111:1015–22.
- [11] Wood DE, Burridge JH, Wijck FM, Mcfadden C, Hitchcock RA, Pandyan AD, et al. Biomechanical approaches applied to the lower and upper limb for the measurement of spasticity: a systematic review of the literature. Disabil Rehabil 2005;27(1/2):19–32.
- [12] Hemens HJ, Freriks B, Disselhorst-Klug C, Rau G. Development of recommendations for SEMG sensors and sensor placement procedures. J Electromyogr Kinesiol 2000;10:361–74.
- [13] Ives JC, Wigglesworth JK. Sampling rate effects on surface EMG timing and amplitude measures. Clin Biomech 2003;18:543–52.
- [14] Application Note 290-1–Practical Strain Gage Measurements. Courtesy of Agilent Technologies Inc., Agilent Technologies; 1999.
- [15] Nuyens G, De Weerdt W, Spaepen A, Janssens L, Ketelaer P, Bogaerts K. Reliability of torque measurements during passive isokinetic knee movements in healthy subjects. Scand J Rehab Med 2000;32:61–5.
- [16] Andrade JM, Estévez-Pérez MG. Statistical comparison of the slopes of two regression lines: a tutorial. Anal Chim Acta 2014;838:1–12.
- [17] Formica D, Charles SK, Zollo L, Guglielmelli E, Hogan N, Krebs HI. The passive stiffness of the wrist and forearm. J Neurophysiol 2012;108:1158–2116.
- [18] Lorentzen J, Grey MJ, Geertsen SS, Biering-Sørensen F, Brunton K, Gorassini M, et al. Assessment of a portable device for the quantitative measurement of ankle joint stiffness in spastic individuals. Clin Neurophysiol 2012;123:1371–82.
- [19] Vacha-Haase T, Thompson B. How to estimate and interpret various effect sizes. J Counsel Psychol 2004;51 (4):473–81.
- [20] Magnusson K. Interpreting Cohen's d effect size: an interactive visualization; 2014, http://rpsychologist.com/d3/cohend/.
- [21] Magnusson SP, Simonsen EB, Aagaard P, Kjaer M. Biomechanical responses to repeated stretches in human hamstring muscle in vivo. Am J Sports Med 1996;24:622–8.
- [22] Valerie J, McColl EJ. Statistics glossary; 2016, http://www.stats.gla.ac.uk/steps/glossary/index.html.
- [23] Halaki M, O'Dwyer N, Cathers I. Systematic nonlinear relations between displacement amplitude and joint mechanics at the human wrist. J Biomech 2006;39:2171–82.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-50323198-b384-4b7b-9dbe-ce13fcf06bbd