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REFERENCES

  • 1
    Mann RA. 1975. Biomechanics of the foot. In: AAOS Atlas of Orthotics. p 257266.
  • 2
    Elftman H. 1960. The transverse tarsal joint and its control. Clin Orthop 16:4146.
  • 3
    Blackwood CB, Yuen TJ, Sangeorzan BJ, et al. 2005. The midtarsal joint locking mechanism. Foot Ankle Int 26:10741080.
  • 4
    Lundgren P, Nester C, Liu A, et al. 2011. Invasive in vivo measurement of rear-, mid- and forefoot motion during walking. Gait Posture 28:93100.
  • 5
    Nester CJ, Liu AM, Ward E, et al. 2007. In vitro study of foot kinematics using a dynamic walking cadaver model. J Biomech 40:19271937.
  • 6
    Whittaker EC, Aubin PM, Ledoux WR. 2011. Foot bone kinematics as measured in a cadaveric robotic gait simulator. Gait Posture 33:645650.
  • 7
    Sharkey NA, Hamel AJ. 1998. A dynamic cadaver model of the stance phase of gait: performance characteristics and kinetic validation. Clin Biomech 13:420433.
  • 8
    Hoskins AH. 2006. Development and characterization of a robotic dynamic activity simulator. Ph. D. Dissertation. The Pennsylvania State University.
  • 9
    Sharkey NA, Smith TS, Lundmark DC. 1995. Freeze clamping musculo-tendinous junctions for in vitro simulation of joint mechanics. J Biomech 28:631635.
  • 10
    Perry J. 1992. Gait analysis, normal and pathologic function. New Jersey: Slack Inc.
  • 11
    Gallucci JG, Challis JH. 2002. Examining the role of the gastrocnemius during the leg curl exercise. J Appl Biomech 18:1527.
  • 12
    Challis JH. 1995. A procedure for determining rigid body transformation parameters. J Biomech 28:733737.
  • 13
    Spoor CW, Veldpaus FE. 1980. Rigid body motion calculated from spatial co-ordinates of markers. J Biomech 13:391393.