PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Influence of the base of support widths on postural control and feet loading symmetry during squat – preliminary study

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The symmetry of feet loading and adequate postural control are crucial aspects of proper squat performance. The study aimed to evaluate the effect of various stance widths during squat on postural control and symmetry of feet loading. Methods: Thirty healthy individuals participated in this study. Each participant performed one type of squat with a narrow stance (NS), hip stance (HS) and wide stance (WS). Results: A significantly higher value of CoP path length, the velocity of sways and Area95 were obtained for the WS squat compared to NS and HS. In addition, the wide feet setting significantly affected not only the feet loading symmetry but also the strategy (high LyE), the amount of irregularities (high SampEn) and the CoP time-series roughness complexity (high FD). It has been shown that as the base of support grew, the asymmetry index grew. Conclusions: The wide squat is less stable, requiring more complex postural control behavior and more flexibility. Performing this squat significantly shifts the pressure to the dominant limb.
Rocznik
Strony
55--63
Opis fizyczny
Bibliogr. 42 poz., rys., tab., wykr.
Twórcy
  • Józef Piłsudski University of Physical Education in Warsaw, Warsaw, Poland.
  • Józef Piłsudski University of Physical Education in Warsaw, Warsaw, Poland.
Bibliografia
  • [1] BŁAŻKIEWICZ M., WISZOMIRSKA I., WIT A., Comparison of four methods of calculating the symmetry of spatialtemporal parameters of gait, Acta Bioeng. Biomech., 2014, 16 (1), 29–35.
  • [2] BŁAŻKIEWICZ M., WISZOMIRSKA I., WIT A., A new method of determination of phases and symmetry in stand-to-sit-tostand movement, Int. J. Occup. Med. Environ. Health, 2014, 27 (4), 660–671.
  • [3] BŁAŻKIEWICZ M., LANN VEL LACE K., HADAMUS A., Gait Symmetry Analysis Based on Dynamic Time Warping, Symmetry, 2021, 13 (5), 836.
  • [4] COMFORT P., MCMAHON J.J., Optimizing Squat Technique – Revisited, Strength and Conditioning Journal, 2018.
  • [5] DA H.K., LEE J.D., KIM K., Plantar pressures in individuals with normal and pronated foot according to static squat depths, Journal of Physical Therapy Science, 2015, 27 (9), 2833–2835.
  • [6] DIONISIO V.C., ALMEIDA G.L., DUARTE M., HIRATA R.P., Kinematic, kinetic and EMG patterns during downward squatting, J. Electromyogr. Kinesiol., 2008, 18 (1), 134–143.
  • [7] DOHERTY C., BLEAKLEY C., HERTEL J., CAULFIELD B., RYAN J., DELAHUNT E., Postural control strategies during single limb stance following acute lateral ankle sprain, Clin. Biomech. (Bristol, Avon), 2014, 29 (6), 643–649.
  • [8] DONKER S.F., GREVEN A.J., BEEK P.J., Regularity of Center-of-Pressure Trajectories Depends on the Amount of Attention Invested in Postural Control, Exp. Brain Res., 2007, 181, 1–11.
  • [9] DOYLE T.L., NEWTON R.U., BURNETT A.F., Reliability of traditional and fractal dimension measures of quiet stance center of pressure in young, healthy people, Arch. Phys. Med. Rehabil., 2005, 86 (10), 2034–2040.
  • [10] ESCAMILLA R.F., FRANCISCO A.C., FLEISIG G.S., BARRENTINE S.W., WELCH C.M., KAYES A.V., SPEER K.P., ANDREWS J.R., A three-dimensional biomechanical analysis of sumo and conventional style deadlifts, Med. Sci. Sports Exerc., 2000, 32 (7), 1265–1275.
  • [11] GOLDBERGER A.L., AMARAL L.A.N., GLASS L., HAUSDORFF J.M., IVANOV P.C., MARK R.G., MIETUS J.E., MOODY G.B., PENG CHUNG-KANG, STANLEY H.E., PhysioBank, PhysioToolkit and PhysioNet: components of a new research resource for complex physiologic signals, Circulation, 2000, 101 (23), E215–20.
  • [12] GU C.Y., LI X.R., LAI C.T., GAO J.J., WANG I.L., WANG L.I., Sex Disparity in Bilateral Asymmetry of Impact Forces during Height-Adjusted Drop Jumps, Int. J. Environ. Res. Public Health, 2021, 18 (11).
  • [13] HANSEN C., QIN WEI, SHIEH J.S., FOURCADE P., ISABLEU B., MAJED L., Sample Entropy, Univariate, and Multivariate Multi-Scale Entropy in Comparison with Classical Postural Sway Parameters in Young Healthy Adults, Front. Hum. Neurosci., 2017, 11, 206.
  • [14] HIGUCHI T., Approach to an irregular time series on the basis of the fractal theory, Physica D: Nonlinear Phenomena, 1988, 31 (2), 277–283.
  • [15] KĘDZIOREK J., BŁAŻKIEWICZ M., Nonlinear Measures to Evaluate Upright Postural Stability: a systematic review, Entropy (Basel), 2020, 22 (12).
  • [16] KĘDZIOREK J., BŁAŻKIEWICZ M., Effect of voluntary muscle contraction on postural stability in healthy adults, Advances in Rehabilitation, 2021, 35 (4), 33–37.
  • [17] KĘDZIOREK J., BŁAŻKIEWICZ M., Nonlinear measures to evaluate upright postural stability: a systematic review, Entropy, 2020, 22 (12).
  • [18] KIM J.W., KWON Y., HO Y., JEON H.M., BANG M.J., JUN J.H. et al., Age-gender differences in the postural sway during squat and stand-up movement, Biomed. Mater Eng., 2014, 24 (6), 2707–2713.
  • [19] KITAMURA T., KIDO A., ISHIDA Y., KOBAYASHI Y., TSUKAMOTO S., TANAKA Y., Muscle Activity Pattern with a Shifted Center of Pressure during the Squat Exercise, J. Sports Sci. Med., 2019, 18 (2), 248–252.
  • [20] KOH D.H., LEE J.D., KIM K., Plantar pressures in individuals with normal and pronated feet according to static squat depths, J. Phys. Ther. Sci., 2015, 27 (9), 2833–2835.
  • [21] KOHN M.A., SMITH M.C., GOBLE D.J., Upward gaze direction increases center of pressure displacement and decreases squat stability, International Journal of Sports Science and Coaching, 2021, 1–5.
  • [22] LIU J., ZHANG X., LOCKHART T.E., Fall risk assessments based on postural and dynamic stability using inertial measurement unit, Saf. Health Work, 2012, 3 (3), 192–198.
  • [23] LORENZETTI S., OSTERMANN M., ZEIDLER F., ZIMMER P., JENTSCH L., LIST R., TAYLOR W.R., SCHELLENBERG F., How to squat? Effects of various stance widths, foot placement angles and level of experience on knee, hip and trunk motion and loading, BMC Sports Sci. Med. Rehabil., 2018, 10, 14.
  • [24] MARTORELLI A., BOTTARO M., VIEIRA A., ROCHA-JÚNIOR V., CADORE E., PRESTES J., WAGNER D., MARTORELLI S., Neuromuscular and blood lactate responses to squat power training with different rest intervals between sets, Journal of Sports Science and Medicine, 2015, 14 (2), 269–275.
  • [25] MCKEAN M.R., DUNN P.K., BURKETT B.J., The lumbar and sacrum movement pattern during the back squat exercise, J. Strength Cond. Res., 2010, 24 (10), 2731–2741.
  • [26] MEHLS K., GRUBBS B., JIN Y., COONS J., Electromyography Comparison of Sex Differences During the Back Squat, J. Strength Cond. Res., 2020.
  • [27] MILOVANOVIĆ I., POPOVIĆ D.B., Principal Component Analysis of Gait Kinematics Data in Acute and Chronic Stroke Patients, Computational and Mathematical Methods in Medicine, 2012, 649743.
  • [28] MORAS G., VÁZQUEZ-GUERRERO J., FERNÁNDEZ-VALDÉS B., ROSAS-CASALS M., WEAKLEY J., JONES B., SAMPAIO J., Structure of force variability during squats performed with an inertial flywheel device under stable versus unstable surfaces, Hum. Mov. Sci., 2019, 66, 497–503.
  • [29] MYER G.D., BRENT J.L., FORD K.R., HEWETT T.E., Real-time assessment and neuromuscular training feedback techniques to prevent ACL injury in female athletes, Strength Cond. J., 2011, 33 (3), 21–35.
  • [30] MYER G.D., KUSHNER A.M., BRENT J.L., SCHOENFELD B.J., HUGENTOBLER J., LLOYD R.S. et al., The back squat: A proposed assessment of functional deficits and technical factors that limit performance, Strength Cond. J., 2014, 36 (6), 4–27.
  • [31] OMID KHAYAT M.S., Complex Feature Analysis of Center of Pressure Signal for Age-Related Subject Classification, Ann. Mi. Health Sci. Res., 2014, 12, 2–7.
  • [32] PAOLI A., MARCOLIN G., PETRONE N., The effect of stance width on the electromyographical activity of eight superficial thigh muscles during back squat with different bar loads, J. Strength Cond. Res., 2009, 23 (1), 246–250.
  • [33] Potvin-Desrochers A., RICHER N., LAJOIE Y., Cognitive task promote automatization of postural control in young and older adults, Gait Posture, 2017, 57, 40–45.
  • [34] PROMSRI A., LONGO A., HAID T., DOIX A.M., FEDEROLF P., Leg Dominance as a Risk Factor for Lower-Limb Injuries in Downhill Skiers – A Pilot Study into Possible Mechanisms, Int. J. Environ. Res. Public Health, 2019, 16 (18).
  • [35] RIIS J., EIKA F., BLOMKVIST A.W., RAHBEK M.T., EIKHOF K.D., HANSEN M.D. et al., Lifespan data on postural balance in multiple standing positions, Gait Posture, 2020, 76, 68–73.
  • [36] ROSENSTEIN M.T., COLLINS J.J., DE LUCA C.J., A practical method for calculating largest Lyapunov exponents from small data sets, Physica D: Nonlinear Phenomena, 1993, 65 (1), 117–134.
  • [37] SCHOENFELD B.J., Squatting kinematics and kinetics and their application to exercise performance, J. Strength Cond. Res., 2010, 24 (12), 3497–506.
  • [38] SERRIEN B., GOOSSENS M., BAEYENS J.-P., Statistical parametric mapping of biomechanical one-dimensional data with Bayesian inference, International Biomechanics, 2019, 6 (1), 9–18.
  • [39] SWINTON P.A., LLOYD R., KEOGH J.W., AGOURIS I., STEWART A.D., A biomechanical comparison of the traditional squat, powerlifting squat, and box squat, J. Strength Cond. Res., 2012, 26 (7), 1805–1816.
  • [40] TEH E.T., TENG LF., ACHARYA UR. et al., Static and frequency domain analysis of plantar pressure distribution in obese and non-obese subjects, J. Bodyw. Mov. Ther., 2006, 10, 127–133.
  • [41] WEBSTER K.E., AUSTIN D.C., FELLER J.A., CLARK R.A., MCCLELLAND J.A., Symmetry of squatting and the effect of fatigue following anterior cruciate ligament reconstruction, Knee Surg Sports Traumatol Arthrosc, 2015, 23 (11), 3208–3213.
  • [42] YOON W.R., PARK S.H., JEONG C.H., PARK J.H., YOON S-H., Effects of center of pressure on muscle activations and joint range of motion of lower extremities during squat, Korean Journal of Sports Biomechanics, 2018, 28 (1), 37–43.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bb98f0cf-29b0-4382-b3b0-9e5180962f48
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.