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Laterality versus ankle dorsiand plantarflexion maximal torques

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of the study was to analyze the connections between the functional asymmetries of lower limbs, taking into account morphological feet features, and ankle dorsi- and plantarflexion maximal torques in men and women. Methods: The study population consisted of 56 young subjects among which there were 30 women and 26 men. The assessment of upper and lower limbs’ side dominance was performed on the basis of surveys, verified with simple motor tasks that resembled the actions characteristic of the upper and lower limbs. The measurements of body build, as well as foot build, were performed with the use of accepted instruments according to the anthropometry standards. The measurements of longitudinal foot arches were conducted using the pantographic method. Ankle dorsi- and plantarflexion maximal torque values were measured under static conditions. Results: We found a positive correlation between the functional dominance of lower limb and greater strength only for ankle plantarflexion maximal torque values in correct laterality variants in women and in only one variant in men. No correlation was found between foot morphological asymmetry and the ankle dorsiand plantarflexion maximal torque values, either in women or in men. Conclusion: Our results support the idea that the functional lower limb dominance is not equivalent to the greater muscle strength.
Rocznik
Strony
131--141
Opis fizyczny
Bibliogr. 27 poz., rys., tab., wykr.
Twórcy
autor
  • Chair of Physiotherapy, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Poland
autor
  • Chair of Biological Foundations of Rehabilitation, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Poland
  • Chair of Biological Foundations of Rehabilitation, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Poland
autor
  • Chair of Biological Foundations of Rehabilitation, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Poland
  • Chair of Biological Foundations of Rehabilitation, Faculty of Rehabilitation, Józef Piłsudski University of Physical Education in Warsaw, Poland
Bibliografia
  • [1] BAXTER J.R., NOVACK T.A., VAN WERKHOVEN H., PENNELL D.R., PIAZZA S.J., Ankle joint mechanics and foot proportions differ between human sprinters and non-sprinters, Proc. R. Soc. B, 2012, 22, 2018–2024.
  • [2] BUŚKO K., Training-induced changes in the topography of muscle torques and maximal muscle torques in basketball players, Biol. Sport, 2012, 29, 77–83.
  • [3] CAREY D.P., SMITH D.T., MARTIN D., SMITH G., SKRIVER J., RUTLAND A., SHEPHERD J.W., The bi-pedal ape: plasticity and asymmetry in footedness, Cortex, 2009, 45(5), 650–661.
  • [4] CHAPMAN J.P., CHAPMAN L.J., ALLEN J.J., The measurement of foot preference, Neuropsychologia, 1987, 25(3), 579–584.
  • [5] DE OLIVEIRA L.F., MENEGALDO L.L., Input error analysis of an EMG-driven muscle model of the plantar flexors, Acta Bioeng. Biomech., 2012, 14(2), 75–81.
  • [6] DORSCH S., ADA L., CANNING C.G., AL-ZHARANI, DEAN C., The strength of the ankle dorsiflexors has a significant contribution to walking speed in people who can walk independently after stroke: An observational study, Arch. Phys. Med. Rehabil., 2012, 93, 1072–1076.
  • [7] ELIAS L.J., BRYDEN M.P., BULMAN-FLEMING M.B., Footedness is a better predictor than is handedness of emotional lateralization, Neuropsychologia, 1998, 36(1), 37–43.
  • [8] FOUSEKIS K., TSEPIS E., VAGENAS G., Lower limb strength in professional soccer players: profile, asymmetry, and training age, J. Sport Sci. Med., 2010, 9, 364–373.
  • [9] GABBARD C., ITEYA M., Foot laterality in children, adolescents and adults, Laterality, 1996, 1(3), 177–183.
  • [10] GROUIOS G., HATZITAKI V., KOLLIAS N., KOIDOU I., Investigating the stabilizing and mobilizing features of footedness, Laterality, 2009, 14(4), 362–380.
  • [11] ILNICKA L., TRZASKOMA Z., WISZOMIRSKA I., WIT A., WYCHOWAŃSKI M., Lower limb laterality versus foot structure in men and women, Biomed. Hum. Kinet., 2013, 5, 28– 42, DOI: 10.2478/bhk-2013-0006.
  • [12] LANSHAMMAR K., RIBOM E.L., Differences in muscle strength in dominant and non-dominant leg in female 20–39 years – A population-based study, Phys. Ther. Sport, 2011, 12, 76–79.
  • [13] LIU T.-Y., HUANG Y.-CH., LEONG CH.-P., TSENG CH.-Y., KUO Y.-R., Home-based Exercise on Functional Outcome of the Donor Lower Extremity in Oral Cancer Patients after Fibula Flap Harvest, Biomed. J., 2013, 36, 90–95.
  • [14] MORAUX A., CANAL A., OLLIVIER G., LEDOUX I., DOPPLER V., PAYAN CH., HOGREL J.-Y., Ankle dorsi- and plantarflexion torques measured by dynamometry in healthy subjects from 5 to 80 years, BMC Musculoskel. Dis., 2013, 14, 104.
  • [15] NEWTON R.U., GERBER A., NIMPHIUS S., SHIM J.K., DOAN B.K., ROBERTSON M., PEARSON D.R., CRAIG B.W., HÄKKINEN K., KRAEMER W.K., Determination of functional strength imbalance of the lower extremities, J. Strength Cond. Res., 2006, 20(4), 971–977.
  • [16] OSTER J., The CT Band, CT Band Biomechanics, and CT Band Syndrome, Foot Ankle Online J., 2009, 2(5), 2.
  • [17] PETERS M., DURDING B.M., Footedness of left- and right hander’s, Am. J. Psychol., 1979, 92, 133–144.
  • [18] PĘDZICH W., MASTALERZ A., SADOWSKI J., Estimation of muscle torque in various combat sports, Acta Bioeng. Biomech., 2012, 14(4), 107–112.
  • [19] RAHNAMA N., LEES A., BAMBAECICHI E., Comparison of muscle strength and flexibility between the preferred and non-preferred leg in English soccer players, Ergonomics, 2005, 48 (11–14), 1568–1575.
  • [20] SIMON A.M., FERRIS D.P., Lower limb force production and bilateral force asymmetries are based on sense of effort, Exp. Brain Res., 2008, 187(1), 129–138.
  • [21] SKELTON D.A., KENNEDY J., RUTHERFORD O.M., Explosive power and asymmetry in leg muscles function in frequent fallers and non-fallers aged over 65, Age Ageing, 2002, 31, 119–125.
  • [22] VALDERRABANO V., NIGG B.M., HINTERMANN B., GOEPFERT B., DICK W., FRANK C.B., HERZOG W., VON TSCHAMER V., Muscular lower leg asymmetry in middle-age people, Foot Ankle Int., 2007, 28(2), 242–249.
  • [23] WANG Z., NEWELL K.M., Footedness exploited as a function of postural task asymmetry, Laterality, 2013, 18(3), 303–318.
  • [24] WEI-HSIU LIN, YING-FANG LIU, CITY CHIN-CHENG HSIEH, ALEX LEE J.Y., Ankle eversion to inversion strength ratio and static balance control in the dominant and non-dominant limbs of young adults, J. Sci. Med. Sport, 2009, 12, 42–49.
  • [25] WENXIN NIU, YANG WANG, YAN HE, YUBO FAN, QINPING ZHAO, Kinematics, kinetics and electromyogram of ankle during landing: A comparison between dominant and nondominant limb, Hum. Mov. Sci., 2011, 30, 614–623.
  • [26] WONG P., CHAMARI K., CHAOUACHI A., MAO D.W., WISLØFF U., HONG Y., Difference in plantar pressure between the preferred and non-preferred feet in four soccer-related movements, Br. J. Sports Med., 2007, 41(2), 84–92.
  • [27] WYCHOWAŃSKI M., Wybrane metody oceny dynamiki układu ruchu człowieka (Selected methods for assessing the dynamics of the human motor system), Studia i Monografie nr 127, Akademia Wychowania Fizycznego w Warszawie, 2008, 1–209, (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bc0dff07-3093-4c04-ad99-1e11324be39b
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