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Tytuł artykułu

Assessment of dynamic balance during step initiation in Parkinson’s disease patients and elderly – a validity study

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Języki publikacji
EN
Abstrakty
EN
The aim of this study was to evaluate the reliability of the novel posturographic procedure and to investigate the relationships between parameters of this procedure and clinical tests. We hypothesised the proposed step initiation procedure to be reliable method of balance and motor disability assessment, especially in patients with neurological deficits. Also, we assumed high significant correlation between parameters of step initiation procedures and clinical tests. Methods: The 35 subjects with idiopathic PD and 35 agedmatched healthy controls participated in this study. The gait initiation was measured using two force platforms. The procedure consisted of three phases: (1) quiet standing on a first platform (2) crossing on the second platform, (3) quiet standing on a second platform. Testing was carried out in four conditions: unperturbed trial, obstacle crossing, step-up and step-down. Results: In the proposed gait initiation procedure, the vCOP, raCOP and rmsCOP showed an excellent reliability (ICC > 0.80). For transit phase, reliability of all variables in all conditions also was excellent (ICC = 0.8–0.9). There were only a few associations between Tinetti scores and posturographic variables in controls, but in PD patients the significant correlations were found between the proposed measures and the UPDRS, Tinetti, FRT, TUG and with the BBS. Conclusions: The proposed gait initiation procedure is reliable and very suitable for the assessment of patients with Parkinson’s disease. It can be used as an objective assessment of the clinical condition and dynamic balance, and help in the designing and programming of the appropriate rehabilitation and treatment.
Rocznik
Strony
3--10
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
  • Institute of Sport Sciences, The Jerzy Kukuczka Academy of Physical Education in Katowice, Poland
  • Institute of Sport Sciences, The Jerzy Kukuczka Academy of Physical Education in Katowice, Poland
  • Institute of Sport Sciences, The Jerzy Kukuczka Academy of Physical Education in Katowice, Poland
  • Institute of Sport Sciences, The Jerzy Kukuczka Academy of Physical Education in Katowice, Poland
Bibliografia
  • [1] BABAEI-GHAZANI A., HOSEIN M., SHAHIDI G.A., HABIBI S.A.H., FOROGH B., AHADI T., EFTEKHARSADAT B., Reliability and validity of the Persian translation of Berg Balance Scale in Parkinson’s disease, Aging. Clin. Exp. Res., 2016, 1–6.
  • [2] BARBOSA A.F., DE OLIVEIRA SOUZA C., CHEN J., FRANCATO D.V., CAROMANO F.A., CHIEN H.F., BARBOSA E.R., D’ANDREA GREVE J.M., VOOS M.C., The competition with a concurrent cognitive task affects posturographic measures in patients with Parkinson’s Disease, Arq. Neuro-Psiquiat., 2015, 73 (11) 906–912.
  • [3] BŁASZCZYK J.W., CZERWOSZ L., Postural stability in the process of aging, Gerontol. Pol., 2005, 13 (1). 25–36.
  • [4] CHASTAN N., DO M. C., BONNEVILLE F., TORNY F., BLOCH F., WESTBY G.W.M., DORMONT D., AGID Y., WELTER M.L., Gait and balance disorders in Parkinson’s Disease: Impaired active braking of the fall of centre of gravity, Mov. Disord., 2009, 24 (2), 188–195.
  • [5] CHMIELEWSKA D., SOBOTA, G., STANIA M., BŁASZCZAK E., SŁOMKA K.J., JURAS G., A comparison of a step-initiation task in women with and without urinary incontinence. A casecontrol study, Neurourol. Urodynam., 2018, 1–7.
  • [6] DOAN J.B., DE BRUIN N., PELLIS S.M., SUCHOWERSKY O., WHISHAW I.Q., BROWN L.A., Obstacle avoidance amongst Parkinson’s Disease patients is challenged in a threatening context, J. Neurodegener. Dis., 2013, 1–8.
  • [7] EBERSBACH G., GUNKEL M., Posturography reflects clinical imbalance in Parkinson’s Disease, Mov. Disord., 2011, 26 (2), 241–246.
  • [8] FERRAZZOLI D., FASANO A., MAESTRI R., BERA R., PALAMARA G., GHILARDI M.F., PEZZOLI G., FRAZZITTA G., Balance dysfunction in Parkinson’s Disease. The role of posturography in developing a rehabilitation program, Parkinson’s Disease, 2015, 1–10.
  • [9] HASS C.J., WADDELL D.E., FLEMING R.P., JUNCOS J.L., GREGOR R.J., Gait initiation and dynamic balance control in Parkinson’s Disease, Arch. Phys. Med. Rehab., 2005, 86, 2172–2176.
  • [10] ICKENSTEIN G.W., AMBACH H., KLÖDITZ A., KOCH H., ISENMANN S., REICHMANN H., ZIEMSSEN T., Static posturography in aging and Parkinson’s Disease, Front Aging. Neurosci., 2012, 4, 1–7.
  • [11] JÓZEFOWICZ-KORCZYŃSKA M., CHMIELECKA-RUTKOWSKA J., MAZERANT A., Clinical tests for balance stability and gait assessment – Bedside Tests, Pol. Prz. Otorynolaryngol., 2016, 5, 57–63.
  • [12] JURKOJĆ J., WODARSKI P., BIENIEK A., GZIK M., MICHNIK R., Influence of changing frequency and various sceneries on stabilometric parameters and on the effect of adaptation in an immersive 3D virtual environment, Acta Bioeng. Biomech., 2017, 19 (3), 129–137
  • [13] JURKOJĆ J., Balance disturbances coefficient as a new value to assess ability to maintain balance on the basis of FFT curves, Acta Bioeng. Biomech., 2018, 20 (1), 143–151.
  • [14] KAMIENIARZ A., MICHALSKA J., BRACHMAN A., PAWŁOWSKI M., SŁOMKA K.J., JURAS G., A posturographic procedure assessing balance disorders in Parkinson’s disease: a systematic review, Clin. Interv. Aging., 2018, 12 (13), 2301–2316.
  • [15] KEGELMEYER D.A, KLOOS A.D., THOMAS K.M., KOSTYK S.K., Research report reliability and validity of the Tinetti Parkinson’s Disease, Phys. Ther., 2007, 87, 1369–1378.
  • [16] MANCINI M., CARLSON-KUHTA P., ZAMPIERI C., NUTT, J.G., CHIARI L., HORAK F.B., Postural sway as a marker of progression in Parkinson’s disease: A pilot longitudinal study, Gait Posture., 2012, 36, 471–476.
  • [17] MARTIN M.,, SHINBERG M., KUCHIBHATLA M., RAY L., CAROLLO J.J., SCHENKMAN M.L., Gait initiation in community-dwelling adults with Parkinson’s Disease: Comparison with older and younger adults without the Disease, Phys. Ther., 2002, 82 (6), 566–577.
  • [18] MORRIS M.E., HUXHAM F., MCGINLEY J., DODD K., IANSEK R., The biomechanics and motor control of gait in Parkinson’s Disease, Clin. Biomech., 2001, 16 (6), 459–470.
  • [19] OPARA J., MAŁECKI A., MAŁECKA E., SOCHA T., Motor assessment in Parkinson’s Disease, Ann. Agr. Env. Med., 2017, 24 (3), 411–415.
  • [20] PODSIADLO D., RICHARDSON S., The timed “Up & Go”: a test of basic functional mobility for frail elderly persons, J. Am. Geriatr. Soc., 1991, 39 (2), 142–148.
  • [21] ROCHESTER L., HETHERINGTON V., JONES D., NIEUWBOER A., WILLEMS A., KWAKKEL G., VAN WEGEN E. et al., Attending to the task: Interference effects of functional tasks on walking in Parkinson’s Disease and the roles of cognition, depression, fatigue and balance, Arch. Phys. Med. Rehabil., 2004, 85 1578–1585.
  • [22] SCHONEBURG B., MANCINI M., HORAK F.B., NUTT J.G., Framework for understanding balance dysfunction in Parkinson’s Disease, Mov. Disord., 2013, 28(11), 1474–1482.
  • [23] SHROUT P.E., FLEISS J.L., Intraclass correlation: uses in assessing rater reliability, Psychol. Bull., 1979, 86, 420–428.
  • [24] SNIJDERS A.H., LEUNISSEN I., BAKKER M., OVEREEM S., HELMICH R.C., BLOEM B.R., TONI I., Gait-related cerebral alterations in patients with Parkinson’s Disease with freezing of gait, Brain, 2011, 134(1), 59–72.
  • [25] SOTO-VARELA A., ROSSI-IZQUIERDO M., FARALDO-GARCÍA A., VAAMONDE-SÁNCHEZ-ANDRADE I., GAYOSO-DIZ P., LIROLA-DELGADO A., SANTOS-PÉREZ S., Balance disorders in the elderly: Does instability increase over time?, Ann. Oto. Rhino. Laryn., 2016, 125(7), 550–558.
  • [26] SOUZA C., VOOS M.C., BARBOSA A.F., CHEN J., FRANCATO D.C.V., MILOSEVIC M., POPOVIC M., FONOFF E.T., CHIEN H.F., BARBOSA E.R., Relationship between posturography, clinical balance and executive function in Parkinson’s Disease, J. Motor. Behav., 2018, 1–10.
  • [27] STANIA M., SARAT-SPEK A., BLACHA T., KAZEK B., SŁOMKA K.J., EMICH-WIDERA E., JURAS G., Step-Initiation Deficits in Children with Faulty Posture Diagnosed with Neurodevelopmental Disorders during Infancy, Front Pediatr., 2017, 5 (239), 1–7.
  • [28] TSUSHIMA H., MORRIS M.E., MCGINLEY J., Test-Retest Reliability and Inter-Tester Reliability of Kinematic Data from a Three-Dimensional Gait Analysis System, J. Jpn. Phys. Ther. Assoc., 2003, 6, 9–17.
  • [29] VALLABHAJOSULA S., BUCKLEY T.A., TILLMAN M.D., HASS C.J., Age and Parkinson’s disease related kinematic alterations during multi-directional gait initiation, Gait Posture, 2013, 37, 280–286.
  • [30] WHIPPLE R., WOLFSON L., DERBY C., SINGH D., TOBIN J., Altered sensory function and balance in older persons, J. Gerontol., 1993, 48 (8), 71–76.
  • [31] WINTER D.A., Human blance and posture control during standing and walking, Gait Posture, 1995, 3 (4), 193–214.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-31f66589-0b00-493c-9935-2a41d37ab998
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