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The aim of this study was to establish the reference values of spatiotemporal parameters, joint angles, ground reaction forces and plantar pressure distribution collected simultaneously on the same measurement path during normal gait in a homogenous group of young, healthy women. Methods: The studied group consisted of 28 healthy women aged 21 years on average. The motion capture system BTS Smart-D, 2 AMTI force platforms and Footscan pedobarographic platform were used in this research. The 14-metre measurement path and the 6-metre distance that examined women had to walk through before entering the measurement area ensured that a natural gait pattern was recorded. Statistical analysis was performed to evaluate differences between right and left lower extremities. Results: The applied method enabled collecting several parameters regarding normal female gait biomechanics such as: spatiotemporal parameters, angle-time characteristics as well as range of motion of pelvis, hip, knee and ankle joints in gait cycle, force-time characteristics and peaks of ground reaction force components in stance phase, peak pressure and time of loading of defined foot regions in stance phase. Conclusions: The results may be used by clinicians, physiotherapists or researchers as a reference in diagnosing gait disorders or evaluating patient’s walking pattern. In recent literature there are some disparities in gait parameters reference values even regarding similar research groups. These differences may arise from distinct method, slower or faster gait, other laboratory environment etc. This should be considered and more than one source of normative values should be checked when searching for reference data.
Czasopismo
Rocznik
Tom
Strony
49--57
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
- Department of Biomechanics, Poznan University of Physical Education, Poland. 2 Chair of Bionics, University of Arts in Poznań, Poland
autor
- Department of Biomechanics, Poznan University of Physical Education, Poland. 2 Chair of Bionics, University of Arts in Poznań, Poland
autor
- Department of Biomechanics, Poznan University of Physical Education, Poland. 2 Chair of Bionics, University of Arts in Poznań, Poland
autor
- Department of Biomechanics, Poznan University of Physical Education, Poland. 2 Chair of Bionics, University of Arts in Poznań, Poland
autor
- Chair of Bionics, University of Arts in Poznań, Poland
- Chair of Physiotherapy and Biological Recovery, The President Stanisław Wojciechowski State University of Applied Sciences in Kalisz, Poland
Bibliografia
- [1] BARRIOS J.A., BUTLER R.J., CRENSHAW J.R., ROVER T.D., DAVIS I.S., Mechanical effectiveness of lateral foot wedging in medial knee osteoarthritis after 1 year of wear, J. Orthop. Res., 2013, 31(5), 659–664.
- [2] BARRIOS J.A., CROSSLEY K.M., DAVIS I.S., Gait retraining to reduce the knee adduction moment through real-time visual feedback of dynamic knee alignment, J. Biomech., 2010, 43(11), 2208–2213.
- [3] BOVI G., RABUFFETTI M., MAZZOLENI P., FERRARIN M., A multiple-task gait analysis approach: Kinematic, kinetic and EMG reference data for healthy young and adult subjects, Gait Posture, 2011, 33(1), 6–13.
- [4] CHIU M.C., WU H.C., CHANG L.Y., Gait speed and gender effects on center of pressure progression during normal walking, Gait Posture, 2013, 37(1), 43–48.
- [5] CZAMARA A., MARKOWSKA I., HAGNER-DERENGOWSKA M., Three-dimensional kinematic analysis of ankle, knee, hip, and pelvic rotation during gait in patients after anterior cruciate ligament reconstruction – early results, BMC Musculoskelet. Disord., 2015, 16, 266.
- [6] DAVIS R.B., OUNPUU S., TYBURSKI D., GAGE J.R., A gait analysis data collection and reduction technique, Hum. Mov. Sci., 1991, 10(5), 575–587.
- [7] FERNÁNDEZ-SEGUIN L.M., DIAZ MANCHA J.A., SÁNCHEZ RODRIGUEZ R., ESCAMILLA MARTINEZ E., GÓMEZ B., RAMOS ORTEGA J., Comparison of plantar pressures and contact area between normal and cavus foot, Gait Posture, 2014, 39(2), 789–792.
- [8] FRYZOWICZ A., DWORAK L.B., KOCZEWSKI P., Prophylaxis of medial compartment gonarthrosis in varus knee – current state of knowledge, Arch. Med. Sci., 2018, 14(2), 454–459, DOI: 10.5114/aoms.2016.57961.
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- [10] HAJDUK G., NOWAK K., SOBOTA G., KUSZ D., KOPEĆ K., BŁASZCZAK E., CIELIŃSKI Ł., BACIK B., Kinematic gait parameters changes in patients after total knee arthroplasty. Comparison between cruciate-retraining and posteriorsubstituting design, Acta Bioeng. Biomech., 2016, 18(3), 137–142.
- [11] HOF A.L., Scaling gait data to body size, Gait Posture, 1996, 4(3), 222–223.
- [12] HOLLMAN J.H., MCDADE E.M., PETERSEN R.C., Normative spatiotemporal gait parameters in older adults, Gait Posture, 2011, 34(1), 111–118.
- [13] KACZMARCZYK K., BŁAŻKIEWICZ M., WIT A., WYCHOWAŃSKI M., Assessing the asymmetry of free gait in healthy young subjects, Acta Bioeng. Biomech., 2017, 19(3), 101–106, DOI: 10.5277/ABB-00770-2016-02.
- [14] KACZMARCZYK K., WYSZOMIRSKA I., BŁAŻKIEWICZ M., WYCHOWAŃSKI M., WIT A., First signs of elderly gait for women, Medycyna Pracy, 2017, 68(4), 441–448
- [15] KELLER T.S., WEISBERGER A.M., RAY J.L., HASAN S.S., SHIAVI R.G., SPENGLER D.M, Relationship between vertical ground reaction force and speed during walking, slow jogging, and running, Clin. Biomech., 1996, 11(5), 253–259.
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- [17] MURAWA M., DWORAK L.B., KABACIŃSKI J., SYCZEWSKA M., RZEPNICKA A., Dynamic parameters of three-point crutch gait in female patients after total hip arthroplasty, Acta Bioeng. Biomech., 2016, 18(2), 131–135.
- [18] MÜNDERMANN L., CORAZZA S., ANDRIACCHI T.P., The evolution of methods for the capture of human movement leading to markerless motion capture for biomechanical applications, J. Neuroengineering Rehabil., 2006, 3, 6.
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- [20] ÖBERG T., KARSZNIA A., ÖBERG K., Joint angle parameters in gait: Reference data for normal subjects, 10–79 years of age, J. Rehab. Res. Dev., 1994, 31(3), 199–213.
- [21] PERRY J., BURNFIELD J.M., Gait analysis: normal and pathological function, Ed. 2, Slack Incorporated, 2010.
- [22] PIETRASZEWSKI B., WINIARSKI S., JAROSZCZUK S., Three-dimensional human gait pattern – reference data for normal men, Acta Bioeng. Biomech., 2012, 14(3), 9–16.
- [23] PROCHAZKOVA M., TEPLA L., SVOBODA Z., JANURA M., CIESLAROVA M., Analysis of foot load during balet dancers’ gait, Acta Bioeng. Biomech., 2014, 16(2), 41–45
- [24] PUTTI A.B., ARNOLD G.P., COCHRANE L.A., ABBOUD R.J., Normal pressure values and repeatability of the Emed® ST4 system, Gait Posture, 2008, 27(3), 501–505.
- [25] SIMON S.R., Quantification of human motion: gait analysis – benefits and limitations to its application to clinical problems, 2004, J. Biomech., 37(12), 1869–1880.
- [26] VAUGHAN C., DAVIS B., O’CONNOR J., Dynamics of human gait, Kiboho Publishers, Cape Town, 1992.
- [27] WINIARSKI S., CZAMARA A., Evaluation of gait kinematics and symmetry during the first two stages of physiotherapy after anterior cruciate ligament reconstruction, Acta Bioeng. Biomech., 2012, 14(2), 91–100.
- [28] WINIARSKI S., RUTKOWSKA-KUCHARSKA A., Estimated ground reaction force in normal and pathological gait, Acta Bioeng. Biomech., 2009, 11(1), 53–60.
- [29] WINTER D.A., The Biomechanics and Motor Control of Human Gait: Normal, Elderly and Pathological, 2nd Ed., University of Waterloo Press, 1991.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e821e279-ac6b-40f6-817a-581470df034a