References 

1. Brown GA, Tello RJ, Rowell D, Mann RW. Determination of body segment parameters using computerized tomography and magnetic resonance imaging. In:  Stein JL editors. Biomechanics of Normal and Prosthetic Gait. New York: American Society of Mechanical Engineers; 1987;p. 145–149
2. Carlson, K.L., 1993. Human hip joint mechanics. An investigation into the effects of femoral head endoprosthetic replacements using in vitro and in vivo pressure data. Ph.D. Thesis, Massachusetts Institute of Technology, Cambridge.
3. Carlson CE, Mann RW, Harris WH. A radio telemetry device for monitoring cartilage surface pressures in the human hip. IEEE Transactions on Biomedical Engineering. 1974;BME-21(4):257–264
4. Genda E, Konisi N, Hasegawa Y, Muira T. A computer simulation study of normal and abnormal hip joint contact pressure. Archives of Orthopaedic and Trauma Surgery. 1995;114:202–206
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5. Genda E, Iwasaki N, Li G, MacWilliams BA, Barrance PJ, Chao EYS. Normal hip joint contact pressure distribution in single-leg standing—effect of gender and anatomic parameters. Journal of Biomechanics. 2001;34:895–905
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6. Hodge WA, Fijan RS, Carlson KL, Burgess RG, Harris WH, Mann RW. Contact pressures in the human hip joint measured in vivo. Proceedings of the National Academy of Sciences USA. 1986;83:2879–2883
7. Hodge WA, Carlson KL, Fijan RS, Burgess RG, Riley PO, Harris WH, et al. Contact pressures from an instrumented hip endoprosthesis. Journal of Bone and Joint Surgery. 1989;71-A(9):1378–1386
8. Lewin R. Pressures measured in live hip joint. Science. 1986;232:1192–1193
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9. Lord PJ, Mann RW. Computer aided intertrochanteric olsteotomy planning and surgery simulation. In:  Tarbell JM editors. Advances in Bioengineering, BED-Vol. 26. New York: American Society of Mechanical Engineers; 1993;p. 531–534
10. Macirowski T, Tepic S, Mann RW. Cartilage stresses in the human hip joint. Journal of Biomechanical Engineering. 1994;116:10–18
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11. Mann RW. Scapel! clamp! floppy disc!—a photo essay on computer-aided surgery. Technology Review. 1991;94:66–71
12. Mann RW. Letter to the editor. Journal of Orthopaedic Research. 2000;18:164–167
13. Rushfeldt PD, Mann RW, Harris WH. Influence of cartilage geometry and the pressure distribution in the human hip joint. Science. 1979;204:413–415
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14. Rushfeldt PD, Mann RW, Harris WH. Improved techniques for measuring in vitro the geometry and pressure distribution in the human acetabulum—II. Instrumented endoprosthesis measurement of articular cartilage surface pressure distribution. Journal of Biomechanics. 1981;14(5):315–324
    • MEDLINE
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15. Rushfeldt PD, Mann RW, Harris WH. Improved techniques for measuring in vitro the geometry and pressure distribution in the human acetabulum—I. Ultrasonic measurement of acetabular surfaces, sphericity and cartilage thickness. Journal of Biomechanics. 1981;14(5):253–260
    • MEDLINE
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16. Rowell D, Mann RW. TRACK^©—The MIT movement analysis system, a benchmark with which to compare commercially available data processing methods. In:  Boenick U,  Näder M,  Mainka C editor. Gait Analysis—State-of-the-Art of Measuring Systems and their Importance in Prosthetic and Orthotic Technology. Duderstadt: Mecke Druck and Verlag; 1990;p. 150–165
17. Tepic, S., Mann, R.W., Harris, W.H., 1980. Ultrasonic measurement of the femoral head geometry. Proceedings of the 26th Orthopaedic Research Society, Atlanta, p. 189.
18. Tepic, S., Mann, R.W., Harris, W.H., 1981. Analytical approach to interarticular congruency of the human hip joint. Proceedings of the 27th Orthopaedic Research Society, Las Vegas, p. 201.
19. Tepic S, Macirowski T, Mann RW. Mechanical properties of articular cartilage elucidated by osmotic loading and ultrasound. Proceedings of the National Academy of Sciences. 1983;80:3331–3333
20. von Eisenhart R, Streinlecher M, Muller-Gerbl M, Eckstein F. Quantitative determination of joint incongruity and pressure distribution during simulated gait and cartilage thickness in the human hip joint. Journal of Orthopaedic Research. 1999;17:532–539