Clinical Biomechanics
Volume 13, Issue 1 , Pages 71-76 , January 1998

The relative skin movement of the foot: a 2-D roentgen photogrammetry study

  • Roy Tranberg

      Affiliations

    • Corresponding Author InformationCorrespondence and reprint requests to: Roy Tranberg, Department of Biomechanics and Orthopaedic Technology, University of Health Science. P.O. Box 1038, S-551 11 Jönköping, Sweden.
    • Department of Biomechanics and Orthopaedic Technology, University of Health Science, Jönköping, Sweden
    • ,
  • Dan Karlsson

      Affiliations

    • Prosolvia Research and Technology, Jönköping, Sweden

Received 12 December 1996 ,Accepted 18 August 1997.

References 

  1. Nawoczenski DA, Cook TM, Saltzman CL. The effect of foot orthotics on three-dimensional kinematics of the leg and rearfoot during running. Journal of Orthopaedic Sports Physicians Therapy. 1995;21:317–327
  2. McPoil T, Cornwall MW. Relationship between neutral subtalar joint position and pattern of rearfoot motion during walking. Foot and Ankle. 1994;15:141–145
  3. Cornwall MW, McPoil TG. Comparison of 2-dimensional and 3-dimensional rearfoot motion during walking. Clinical Biomechanics. 1995;10:36–40
  4. Cornwall MW, McPoil TG. Footwear and foot orthotic effectiveness research: a new approach. Journal of Orthopaedic Sports Physicians Therapy. 1995;21:337–344
  5. Moseley L, Smith R, Hunt A, Grant R. Three-dimensional kinematics of the rearfoot during the stance phase of walking in normal young adult males. Clinical Biomechanics. 1996;11:39–45
  6. Siegler S, Wang D, Plasha E, Berman AT. Technique for in vivo measurement of the three-dimensional kinematics and laxity characteristics of the ankle joint complex. Journal of Orthopaedic Research. 1994;12:421–431
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  8. McCulloch MU, Brunt D, Vander Linden D. The effect of foot orthotics and gait velocity on lower limb kinematics and temporal events of stance. Journal of Orthopaedic Sports Physicians Therapy. 1993;17:2–10
  9. Laassel EM, Loslever P, Angue JC. Patterns of relations between lower limb angle excursions during normal gait. Journal of Biomedical Engineering. 1992;14:313–320
  10. Eng JJ, Pierrynowski MR. The effect of soft foot orthotics on three-dimensional lower limb kinematics during walking and running. Physicians Therapy. 1994;74:45–53
  11. DeLuzio KJ, Wyss UP, Li J, Costigan PA. A procedure to validate three-dimensional motion assessment systems. Journal of Biomechanics. 1993;26:753–759
  12. Lundberg A, Winson IG, Németh G, Josephson A. In vitro assessment of the accuracy of opto-electronic joint motion analysis. European Journal of Experimental Musculoskeletal Research. 1992;1:217–219
  13. Karlsson D, Lundberg A. In vivo measurement of body segment motion using external fixation markers. In: Biomechanics Seminars. Vol. 8:Göteborg, Sweden: Chalmers University of Technology; 1994;p. 179–184
  14. Karlsson D, Lundberg A. Accuracy estimation of kinematic data derived from bone anchored external markers. In: 3rd International Symposium on 3-D Analysis of Human Motion. 1994;p. 27–30
  15. Cappozzo A, Catani F, Leardini A. In: Skin Movement Artefacts in Human Movement Photogrammetry, Proceedings: 14th ISB Congress. Paris. 4–8 July, 1993;p. 238–239
  16. Small CF, Pichora DR, Bryant JT, Looke T, Griffiths PM, Zee B. In: Validation of a 3-D Optoelectronic Motion Analysis System for the Hands and Fingers, Proceedings: 14th ISB Congress. Paris. 4–8 July, 1993;p. 1258–1259

PII: S0268-0033(97)00052-1

Clinical Biomechanics
Volume 13, Issue 1 , Pages 71-76 , January 1998

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