Anderst, W., R. Zauel, J. Bishop, E. Demps, and S. Tashman. Validation of three-dimensional model-based tibio-femoral tracking during running. Med. Eng. Phys. 31:10–16, 2009.
Behnam, A. J., D. A. Herzka, and F. T. Sheehan. Assessing the accuracy and precision of musculoskeletal motion tracking using cine-PC MRI on a 3.0T platform. J. Biomech. 44(1):193–197, 2011.
Blankevoort, L., R. Huiskes, and A. de Lange. Helical axes of passive knee joint motions. J. Biomech. 23(12):1219–1229, 1990.
Borotikar, B. S., W. H. Sipprell, III, E. E. Wible, and F. T. Sheehan. A methodology to accurately quantify patellofemoral cartilage contact kinematics by combining 3D image shape registration and cine-PC MRI velocity data. J. Biomech. 45(6):1117–1122, 2012.
Closkey, R. F., and R. E. Windsor. Alterations in the patella after a high tibial or distal femoral osteotomy. Clin. Orthop. Relat. Res. 389:51–56, 2001.
Della, C. U., V. Camomilla, A. Leardini, and A. Cappozzo. Femoral anatomical frame: assessment of various definitions. Med. Eng. Phys. 25(5):425–431, 2003.
Draper, C. E., T. F. Besier, J. M. Santos, F. Jennings, M. Fredericson, G. E. Gold, G. S. Beaupre, and S. L. Delp. Using real-time MRI to quantify altered joint kinematics in subjects with patellofemoral pain and to evaluate the effects of a patellar brace or sleeve on joint motion. J. Orthop. Res. 27(5):571–577, 2009.
Eckhoff, D. G., T. F. Dwyer, J. M. Bach, V. M. Spitzer, and K. D. Reinig. Three-dimensional morphology of the distal part of the femur viewed in virtual reality. J. Bone Joint Surg. Am. 83-A Suppl 2(Pt 1):43–50, 2001.
Ehrig, R. M., W. R. Taylor, G. N. Duda, and M. O. Heller. A survey of formal methods for determining functional joint axes. J. Biomech. 40(10):2150–2157, 2007.
Elfring, R., M. de la Fuente, and K. Radermacher. Assessment of optical localizer accuracy for computer aided surgery systems. Comput. Aided Surg. 15(1–3):1–12, 2010.
Fellows, R. A., N. A. Hill, H. S. Gill, N. J. MacIntyre, M. M. Harrison, R. E. Ellis, and D. R. Wilson. Magnetic resonance imaging for in vivo assessment of three-dimensional patellar tracking. J. Biomech. 38(8):1643–1652, 2005.
Friese, K. I., P. Blanke, and F. E. Wolter. Yadiv—an open platform for 3D visualization and 3D segmentation of medical data. Vis. Comput. 27:129–139, 2011.
Gold, G. E., and C. F. Beaulieu. Future of MR imaging of articular cartilage. Semin. Musculoskelet. Radiol. 5(4):313–327, 2001.
Grood, E. S., and W. J. Suntay. A joint coordinate system for the clinical description of three-dimensional motions: application to the knee. J. Biomech. Eng. 105(2):136–144, 1983.
Katchburian, M. V., A. M. Bull, Y. F. Shih, F. W. Heatley, and A. A. Amis. Measurement of patellar tracking: assessment and analysis of the literature. Clin. Orthop. Relat. Res. 412:241–259, 2003.
Laprade, J., and E. Culham. Radiographic measures in subjects who are asymptomatic and subjects with patellofemoral pain syndrome. Clin. Orthop. Relat. Res. 414:172–182, 2003.
Leardini, A., L. Chiari, C. U. Della, and A. Cappozzo. Human movement analysis using stereophotogrammetry. Part 3. Soft tissue artifact assessment and compensation. Gait Posture 21(2):212–225, 2005.
Lenz, N. M., A. Mane, L. P. Maletsky, and N. A. Morton. The effects of femoral fixed body coordinate system definition on knee kinematic description. J. Biomech. Eng. 130(2):021014, 2008.
Liodakis, E., M. Kenawey, I. Doxastaki, C. Krettek, C. Haasper, and S. Hankemeier. Upright MRI measurement of mechanical axis and frontal plane alignment as a new technique: a comparative study with weight bearing full length radiographs. Skeletal Radiol. 40(7):885–889, 2011.
MacIntyre, N. J., N. A. Hill, R. A. Fellows, R. E. Ellis, and D. R. Wilson. Patellofemoral joint kinematics in individuals with and without patellofemoral pain syndrome. J. Bone Joint Surg. Am. 88(12):2596–2605, 2006.
MacIntyre, N. J., E. K. McKnight, A. Day, and D. R. Wilson. Consistency of patellar spin, tilt and lateral translation side-to-side and over a 1 year period in healthy young males. J. Biomech. 41(14):3094–3096, 2008.
Manal, K., I. McClay, J. Richards, B. Galinat, and S. Stanhope. Knee moment profiles during walking: errors due to soft tissue movement of the shank and the influence of the reference coordinate system. Gait Posture 15(1):10–17, 2002.
Nha, K. W., R. Papannagari, T. J. Gill, S. K. Van de Velde, A. A. Freiberg, H. E. Rubash, and G. Li. In vivo patellar tracking: clinical motions and patellofemoral indices. J. Orthop. Res. 26(8):1067–1074, 2008.
Patel, V. V., K. Hall, M. Ries, C. Lindsey, E. Ozhinsky, Y. Lu, and S. Majumdar. Magnetic resonance imaging of patellofemoral kinematics with weight-bearing. J. Bone Joint Surg. Am. 85-A(12):2419–2424, 2003.
Patel, V. V., K. Hall, M. Ries, J. Lotz, E. Ozhinsky, C. Lindsey, Y. Lu, and S. Majumdar. A three-dimensional MRI analysis of knee kinematics. J. Orthop. Res. 22(2):283–292, 2004.
Scarvell, J. M., P. N. Smith, K. M. Refshauge, H. R. Galloway, and K. R. Woods. Evaluation of a method to map tibiofemoral contact points in the normal knee using MRI. J. Orthop. Res. 22(4):788–793, 2004.
Shakarji, C. M. Least-squares fitting algorithms of the NIST algorithm testing system. J. Res. Nat. Inst. Stand. Technol. 103:633–641, 1998.
Sheehan, F. T., A. Derasari, T. J. Brindle, and K. E. Alter. Understanding patellofemoral pain with maltracking in the presence of joint laxity: complete 3D in vivo patellofemoral and tibiofemoral kinematics. J. Orthop. Res. 27(5):561–570, 2009.
Shellock, F. G., M. Mullin, K. R. Stone, M. Coleman, and J. V. Crues. Kinematic magnetic resonance imaging of the effect of bracing on patellar position: qualitative assessment using an extremity magnetic resonance system. J. Athl. Train. 35(1):44–49, 2000.
Shin, C. S., R. D. Carpenter, S. Majumdar, and C. B. Ma. Three-dimensional in vivo patellofemoral kinematics and contact area of anterior cruciate ligament-deficient and -reconstructed subjects using magnetic resonance imaging. Arthroscopy 25(11):1214–1223, 2009.
Spoor, C. W., and F. E. Veldpaus. Rigid body motion calculated from spatial co-ordinates of markers. J. Biomech. 13(4):391–393, 1980.
van Kampen, A., and R. Huiskes. The three-dimensional tracking pattern of the human patella. J. Orthop. Res. 8(3):372–382, 1990.
von Eisenhart-Rothe, R., M. Siebert, C. Bringmann, T. Vogl, K. H. Englmeier, and H. Graichen. A new in vivo technique for determination of 3D kinematics and contact areas of the patellofemoral and tibiofemoral joint. J. Biomech. 37(6):927–934, 2004.
Ward, S. R., M. R. Terk, and C. M. Powers. Patella alta: association with patellofemoral alignment and changes in contact area during weight-bearing. J. Bone Joint Surg. Am. 89(8):1749–1755, 2007.
Wilson, N. A., J. M. Press, J. L. Koh, R. W. Hendrix, and L. Q. Zhang. In vivo noninvasive evaluation of abnormal patellar tracking during squatting in patients with patellofemoral pain. J. Bone Joint Surg. Am. 91(3):558–566, 2009.
Yamada, Y., Y. Toritsuka, S. Horibe, K. Sugamoto, H. Yoshikawa, and K. Shino. In vivo movement analysis of the patella using a three-dimensional computer model. J. Bone Joint Surg. Br. 89(6):752–760, 2007.
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