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Journal Abstract Search

118 related items for PubMed ID: 16871001

  • 1. Modeling a viscoelastic gymnastics landing mat during impact.
    Mills C, Pain MT, Yeadon MR.
    J Appl Biomech; 2006 May; 22(2):103-11. PubMed ID: 16871001
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  • 3. Video analysis of the deformation and effective mass of gymnastics landing mats.
    Pain MT, Mills CL, Yeadon MR.
    Med Sci Sports Exerc; 2005 Oct; 37(10):1754-60. PubMed ID: 16260977
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  • 6. A three-dimensional shank-foot model to determine the foot motion during landings.
    Arampatzis A, Brüggemann GP, Klapsing GM.
    Med Sci Sports Exerc; 2002 Jan; 34(1):130-8. PubMed ID: 11782658
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  • 7. The influence of simulation model complexity on the estimation of internal loading in gymnastics landings.
    Mills C, Pain MT, Yeadon MR.
    J Biomech; 2008 Jan; 41(3):620-8. PubMed ID: 18005975
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  • 8. Orthotic effect of a stabilising mechanism in the surface of gymnastic mats on foot motion during landings.
    Arampatzis A, Morey-Klapsing G, Brüggemann GP.
    J Electromyogr Kinesiol; 2005 Oct; 15(5):507-15. PubMed ID: 15935962
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  • 9. Reducing ground reaction forces in gymnastics' landings may increase internal loading.
    Mills C, Pain MT, Yeadon MR.
    J Biomech; 2009 Apr 16; 42(6):671-8. PubMed ID: 19281989
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  • 10. Fatigue effects on the viscoelastic behavior of men and women in a landing task: a Mass-Spring-Damper modeling approach.
    Boozari S, Sanjari MA, Amiri A, Ebrahimi Takamjani I.
    Comput Methods Biomech Biomed Engin; 2020 Aug 16; 23(10):564-570. PubMed ID: 32551896
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  • 12. A mathematical high bar-human body model for analysing and interpreting mechanical-energetic processes on the high bar.
    Arampatzis A, Brüggemann GP.
    J Biomech; 1998 Dec 16; 31(12):1083-92. PubMed ID: 9882040
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  • 13. Greater lower limb flexion in gymnastic landings is associated with reduced landing force: a repeated measures study.
    Slater A, Campbell A, Smith A, Straker L.
    Sports Biomech; 2015 Mar 16; 14(1):45-56. PubMed ID: 25895434
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  • 14. Consistency of performances in the Tkatchev release and re-grasp on high bar.
    Hiley MJ, Yeadon MR, Buxton E.
    Sports Biomech; 2007 May 16; 6(2):121-30. PubMed ID: 17892090
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  • 15. Soft tissue contributions to impact forces simulated using a four-segment wobbling mass model of forefoot-heel landings.
    Gittoes MJ, Brewin MA, Kerwin DG.
    Hum Mov Sci; 2006 Dec 16; 25(6):775-87. PubMed ID: 16879889
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  • 16. Evaluation of a subject-specific female gymnast model and simulation of an uneven parallel bar swing.
    Sheets AL, Hubbard M.
    J Biomech; 2008 Nov 14; 41(15):3139-44. PubMed ID: 18930233
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  • 17. Do accelerometers mounted on the back provide a good estimate of impact loads in jumping and landing tasks?
    Simons C, Bradshaw EJ.
    Sports Biomech; 2016 Nov 14; 15(1):76-88. PubMed ID: 26873303
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  • 18. Optimal kicking of a trampolinist.
    Chen J, Guo H, Gao Z, An M, Wang X, Chen W.
    Hum Mov Sci; 2016 Aug 14; 48():54-61. PubMed ID: 27132153
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  • 19. Somersaulting techniques used in high-scoring and low-scoring Roche vaults performed by male Olympic gymnasts.
    Takei Y, Dunn JH, Blucker EP.
    J Sports Sci; 2007 Apr 14; 25(6):673-85. PubMed ID: 17454535
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