Dynamic three-dimensional in vivo tracking of the abnormal extensor mechanism

Proceedings of the 1995 Fourteenth Southern Biomedical Engineering Conference Pub Date : 1995-04-07 DOI:10.1109/SBEC.1995.514448

P. Christakis, L.S. Popich, S. Cook, M. E. Brunet

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Abstract

This study addresses the effects of extensor mechanism realignment (EMR) on patellar tracking patterns in pathologic knees. Ten patients diagnosed with patellar maltracking, subluxation, or patellofemoral malalignment and requiring an EMR participated in the study. Lateral release and vastus medialis obliquus (VMO) advancement were performed unilaterally in all ten patients. Tibial tubercle transfer was conducted in five of these patients. Electromagnetic sensors were used to dynamically measure patellar and tibial motion relative to the femur in three dimensions. Patella flexion, rotation, tilt, and shift were measured as the knee was passively flexed from full extension to 90/spl deg/ knee flexion. Lateral release had little effect on patellar spin and flexion patterns, although it did increase net medial shift in seven of ten cases. Following VMO advancement the rate of patellar flexion and net medial patellar spin increased in seven cases. Net lateral patellar tilt increased in seven cases and medial shift increased in five cases. Due to a limited amount of data, conclusive observations could not be made regarding tibial tubercle transfer.

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异常伸肌机制的动态三维体内跟踪

本研究探讨了伸肌机制调整(EMR)对病理性膝关节髌骨追踪模式的影响。10名被诊断为髌骨错位、半脱位或髌骨股骨错位并需要EMR的患者参与了这项研究。所有10例患者均单侧进行外侧松解和股内侧斜肌(VMO)推进。其中5例患者行胫骨结节转移术。电磁传感器用于动态测量髌骨和胫骨相对于股骨的三维运动。当膝关节从完全伸展被动屈曲至90/spl度/膝关节屈曲时，测量髌骨屈曲、旋转、倾斜和移位。侧松解对髌骨旋转和屈曲模式影响不大，尽管在10例中有7例确实增加了净内侧移位。在VMO推进后，7例髌骨屈曲率和髌骨内侧净旋率增加。净外侧髌骨倾斜增加7例，内侧移位增加5例。由于数据量有限，无法对胫骨结节转移进行结论性观察。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 1995 Fourteenth Southern Biomedical Engineering Conference

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