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Abstrakty
The human body balance system is a complex system of organs and mechanisms, which generate postural reactions to counter the displacement from the equilibrium position of the body centre of gravity, and which control eye movement in order to maintain a stable image of the environment. Computerised Dynamic Posturography (CDP) allows for a quantitative and objective assessment of the sensory and motor components of the body balance control system as well as of the integration and adaptive mechanisms in the central nervous system. The aim of this study was to determine the differences, when maintaining body balance, based on the gender of young, healthy people using CDP. The study was carried out on a group of 43 healthy subjects by comparing the effectiveness of the balance system in 22 women and 21 men aged between 20 and 26 years, between 171 and 177 cm in height, and without any clinical symptoms of balance disorders. The men and women were selected such that they did not differ significantly in height and BMI. Using the Equitest posturograph manufactured by NeuroCom International Inc. the following tests were performed: Sensory Organisation Test (SOT), Motor Control Test (MCT) and the Adaptation Test (ADT). The gender of young healthy individuals without any clinical symptoms of balance disorders also does not affect the effectiveness of the sensory system and the use of this signal in maintaining body balance.
Czasopismo
Rocznik
Tom
Strony
69--74
Opis fizyczny
Bibliogr. 18 poz., wykr.
Twórcy
autor
- Department of Biophysics, Medical University of Lublin, Lublin, Poland
autor
- Department of Human Anatomy, Medical University of Lublin, Lublin, Poland
autor
- Department of Otolaryngology and Laryngeal Oncology, SPSK-4, Lublin, Poland
autor
- Department of Biophysics, Medical University of Lublin, Lublin, Poland
autor
- Department of Applied Mathematics and Informatics, Scientific University of Lublin, Lublin, Poland
autor
- Department of Human Anatomy, Medical University of Lublin, Lublin, Poland
Bibliografia
- [1] BŁAŻKIEWICZ M., Muscle force distribution during forward and backward locomotion, Acta of Bioengineering and Biomechanics, 2013, 15, 3, 3–9.
- [2] CHAUDHRY H., BUKIET B., JI Z., FINDLEY T., Measurement of balance in computer posturography: Comparison of methods – A brief review, J. Body. Mov. Ther., 2011, 15, 82–91.
- [3] FARALDO-GARCÍA A., SANTOS-PÉREZ S., CRUJEIRAS-CASAIS R., LABELLA-CABALLERO T., SOTO-VARELA A., Influence of age and gender in the sensory analysis of balance control, Eur. Arch. Otorhinolaryngol., 2012, 269, 673–677.
- [4] IWAŃSKA D., URBANIK Cz., The sense of position and movement in the knee joint during voluntary movements, Acta of Bioengineering and Biomechanics, 2013, 15, 3, 11–17.
- [5] LIAW M.Y., CHEN C.L., PEI Y.C., LEONG C.P., LAU Y.C., Comparison of the static and dynamic balance performance in young, middle-aged, and elderly healthy people. Chang Gung Med. J., 2009, 32, 297–304.
- [6] NASHNER L.M., Adapting reflexes controlling the human posture, Exp. Brain. Res., 1976, 26, 59–72.
- [7] NASHNER L.M., Computerized Dynamic Posturography, [in:] Jacobson G.P., Newman C.W., Kartush J.M. (ed.), Handbook of balance function testing, St. Louis, Mosby Year-Book, 1993b, 280–307.
- [8] NASHNER L.M., Computerized Dynamic Posturography Clinical Applications, [in:] Jacobson G.P., Newman C.W., Kartush J.M. (ed.), Handbook of balance function testing, St. Louis, Mosby Year-Book, 1993c, 308–334.
- [9] NASHNER L.M., Practical Biomechanics and Physiology of Balance, [in:] Jacobson G.P., Newman C.W., Kartush J.M. (ed.), Handbook of balance function testing, St. Louis, Mosby Year-Book, 1993a, 261–279.
- [10] NeuroCom International. Balance Manager Systems. Clinical Interpretation Guide. NeuroCom International, Inc., Clakamas (Or) 2008a.
- [11] NeuroCom International. Balance Manager Systems. Clinical Operations Guide. NeuroCom International, Inc., Clakamas (Or) 2008b.
- [12] OLCHOWIK G., TOMASZEWSKI M., OLEJARZ P., WARCHOŁ J., RÓŻAŃSKA-BOCZULA M., The effect of height and BMI on computer dynamic posturography parameters in women, Acta of Bioengineering and Biomechanics, (in press).
- [13] OLIVEIRA C.B., MEDEIROS Í.R.T., GRETERS M.G., FROTA N.A., LUCATO L.T., SCAFF M., CONFORTO A.B., Abnormal sensory integration affects balance control in hemiparetic patients within the first year after stroke, Clinics (Sao Paulo), 2011, 66, 2043–2048.
- [14] PIECHA M., KRÓL P., JURAS G., SOBOTA G., POLAK A., BACIK B., Acta of Bioengineering and Biomechanics, 2013, 15, 3, 29–35.
- [15] ROBILLARD R., PRINCE F., BOISSONNEAULT M., FILIPINI D., CARRIER J., Effects of increased homeostatic sleep pressure on postural control and their modulation by attentional resources, Clin. Neurophysiol., 2011, 122, 1771–1778.
- [16] SHEPARD N.T., SOLOMON D., RUCKENSTEIN M., STAAB J., Evaluation of the Vestibular (Balance) System, [in:] Snow J.B., Ballenger J.J. (eds.), Ballenger’s Otorhinolarygnology Head and Neck Surgery, Hamilton, Ontario, BC Decker Inc.; 2003, 161–194.
- [17] WOLFSON L., WHIPPLE R., DERBY C.A., AMERMAN P., NASHNER L., Gender differences in the balance of healthy elderly as demonstrated by dynamic posturography, J. Gerontol., 1994, 49, 160–167.
- [18] WU E., JI L., JIN D., PAI Y., Minimal Step Length Necessary for Recovery of Forward Balance Loss with a Single Step, J. Biomech., 2007, 40, 1559–1566.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3f27de0d-9907-4511-b8f9-b825d089ab96