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The foot deformity versus postural control in females aged over 65 years

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: Correct foot structure is important due to locomotion and postural stability. The aim of this study was to determine the relationships between morphological foot structure and balance indices in a quiet standing position in women over 65 years of age. Methods: The study included 116 women aged 65-90 years. The mean age was 70.6±8.4 years and BMI 29.1±3.4 m/kg2. The measured indices included postural control while standing on both feet and photogrammetric foot evaluation. An analysis was performed of the selected foot and balance indices. Results: There were no significant differences observed in the feet structure. Certain correlations between some foot indices and the indices of postural control were noted. The increased differences in the width indices between the right and the left foot lead to balance deterioration. Larger angles of valgity and varus deformity of toes and indices describing the longitudinal arch and transverse front arch of the foot have the greatest impact on the deterioration of balance in the medio-lateral axis. Conclusions: The differences between the indices and morphological indices for the right and the left foot are not significant, which indicates the proportionate formation of feet in the individual life. The increased differences in the width indices between the right and the left foot lead to balance deterioration. Larger angles of valgity and varus deformity of toes and indices describing the longitudinal arch and transverse front arch of the foot have the greatest impact on the deterioration of balance in the medio-lateral axis.
Rocznik
Strony
75--82
Opis fizyczny
Bibliogr. 25 poz., tab.
Twórcy
  • Institute of Physiotherapy, Medical Faculty, University of Rzeszów, Rzeszów, Poland
autor
  • Institute of Physiotherapy, Medical Faculty, University of Rzeszów, Rzeszów, Poland
autor
  • Physiotherapy Department, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Warsaw, Poland
autor
  • Institute of Physiotherapy, Medical Faculty, University of Rzeszów, Rzeszów, Poland
  • Institute of Physiotherapy, Medical Faculty, University of Rzeszów, Rzeszów, Poland
autor
  • Department of Quantitative Methods in Economics, Faculty of Economics, University of Information Technology and Management, Rzeszów, Poland
  • Physiotherapy Department, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Warsaw, Poland
autor
  • Physiotherapy Department, Social Academy of Science, Warszawa, Poland
Bibliografia
  • [1] AAGAARD P., SUETTA CH., CASEROTTI P., MAGNUSSON S.P.,KJÆR M., Role of the nervous system in sarcopenia and muscle atrophy with aging: strength training as a countermeasure, Scan. J. Med. Sci. Sports, 2010, 20(1), 49–64.
  • [2] ANDRZEJEWSKA J., BURDUKIEWICZ A., CHROMIK K.,PIETRASZEWSKA J., STACHOŃ A., Budowa morfologiczna oraz charakterystyka stóp zawodników dżudo, Acta Bio-Optica et Informatica Medica, 2010, 1(16), 21–24.
  • [3] AUDU M.L., KIRSCH R.F., TRIOLO R.J., Experimental verification of a computational technique for determining ground reactions in human bipedal stance, J. Biomech., 2007, 40(5), 1115–1124.
  • [4] BŁASZCZYK J., Sway ratio – a new measure for quantifying postural stability, Acta Neurobiol. Exp. (Wars.), 2008, 68(1), 51–57.
  • [5] BŁASZCZYK J.W., CZERWOSZ L., Stabilność posturalna w procesie starzenia, Gerontologia Polska, 2005, 13(1), 25–36.
  • [6] BŁASZCZYK J.W., MICHALSKI A., Ageing and Postural Stability, Studies in Physical Culture and Tourism, 2006, 13, 11–14.
  • [7] CAVANAGH P.R., The relationship of static foot structure to dynamic foot function. J. Biomech., 1997, 30(3), 243–250.
  • [8] DENYER J.R., HEWITT N.L.A., MITCHELL A. C. S., Foot Structure and Muscle Reaction Time to a Simulated Ankle Sprain, Journal of Athletic Training, 2013, 48(3), 326–330.
  • [9] D’HONDT E., DEFORCHE B., BOURDEAUDHUIJ I., GENTIER I., TANGHE A., SHULTZ S., LENOIR M., Postural balance under normal and altered sensory conditions in normalweight and overweight children, Clin. Biomech., 2011, 26, 84–89.
  • [10] FAN Y., FAN Y, Li Z, Lv C, LUO D. Natural Gaits of the Non-Pathological Flat Foot and High-Arched Foot, PLoS ONE, 2011, 6(3), 1–5.
  • [11] KILBY M.C., NEWELL K.M., Intra- and inter-foot coordination in quiet standing: Footwear and posture effects, Gait & Posture, 2012, 35, 511–516.
  • [12] KUCZYŃSKI M., PODBIELSKA M.L., BIEĆ D., PALUSZAK A., KRĘCISZ K., Podstawy oceny równowagi ciała: czyli co, w jaki sposób i dlaczego powinniśmy mierzyć?, Acta Bio-Optica et Informatica Medica, 2012, 4(18), 243–249.
  • [13] ŁAPSZO J., GIOVANIS V., PRUSIK K., PRUSIK K., Balance control contributors – the relationships between leg strength and balance control ability in seniors, Acta Bioeng. Biomech., 2012, 14(3), 3–8.
  • [14] LEARDINI A., Rear-foot, mid-foot and fore-foot motion during the stance phase of gait, Gait & Posture, 2007, 25(3), 453–462.
  • [15] LEE H.J., CHOU L.S., Detection of gait instability using the center of mass and center of pressure inclination angles, Arch. Phys. Med. Rehabil., 2006, 87(4), 569–575.
  • [16] LISIŃSKI P., HUBERB J., GAJEWSKA E., SZŁAPIŃSKA P., The body balance training effect on improvement of motor functions in paretic extremities in patients after stroke. A randomized, single blinded trial, Clin. Neurol. Neurosurg., 2012, 114(1), 31–36.
  • [17] MOGHADAM M., ASHAYERI H., SALAVATI M., SARAFZADEH J., TAGHIPOOR K.D., SAEEDI A., SALEHI R., Reliability of center of pressure measures of postural stability in healthy older adults: Effects of postural task difficulty and cognitive load, Gait & Posture, 2011, 33, 651–655.
  • [18] MROZOWSKI J., AWREJCEWICZ J., BAMBERSKI P., Analysis Of Stability Of The Human Gait, J. Theor. Appl. Mech., 2007, 45(1), 91–98.
  • [19] PAVOL M.J., Control Measures Based on a Simple Model of Human Postural Focus on a New Interpretation of Spontaneous Sway Detecting and Understanding Differences in Postural Sway, J. Neurophysiol., 2005, 93, 20–21.
  • [20] PUSZCZAŁOWSKA-LIZIS E. Związki kąta Clarke’a z cechami przedniej i tylnej strefy podparcia oraz częstość występowania deformacji stóp u kobiet w wieku geriatrycznym, Gerontologia Polska, 2011, 19(1), 33–39.
  • [21] SELL T.C., An examination, correlation, and comparison of static and dynamic measures of postural stability in healthy, physically active adults, Phys. Therap. Sport, 2012, 13, 80–86.
  • [22] SYCZEWSKA M., ZIELIŃSKA T., Power spectral density in balance assessment. Description of methodology, Acta Bioeng. Biomech., 2010, 12(4), 89–92.
  • [23] TRAVERS B.G., POWELL P.S., KLINGER L.G., KLINGER M.R., Motor Difficulties in Autism Spectrum Disorder: Linking Symptom Severity and Postural Stability, J. Autism Dev. Disord., 2013, 43, 1568–1583.
  • [24] WINTER D.A., PATLA A.E., RIETDYK S., ISHAC M.G., Ankle Muscle Stiffness in the Control of Balance During Quiet Standing, J. Neurophysiol., 2001, 85, 2630–2633.
  • [25] WRIGHT W.G., IVANENKO Y.P., GURFINKEL V.S., Foot anatomy specialization for postural sensation and control, J. N. Physiol., 2012, 107(5), 1513–1521.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5854a49e-8442-4c40-bfcd-e37f5e21d51c
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