全膝关节置换术
植入
骨关节炎
关节置换术
外科
射线照相术
膝关节假体
假肢
膝关节
作者
Vincent Alipit,Amanda E. Kirk,Daniel Scholl,Gregg Schmidig,Bryan D. Springer,Gwo-Chin Lee
标识
DOI:10.1016/j.arth.2020.07.013
摘要
Abstract Introduction The purpose of this study is to compare the micromotion of various tibial reconstruction strategies including short cemented and long cementless stems with or without metaphyseal augmentation. Materials and Methods A moderate tibial bone defect was milled into dual density polyurethane test blocks. Mechanical testing was performed on 4 test constructs: 1) short cemented stem (75mm total length) alone; 2) short cemented stem with a symmetric metaphyseal cone; 3) a press fit (175mm total length) diaphyseal engaging tibial construct without a cone, and 4) the same press fit tibial construct with a metaphyseal cone augment. Micromotion of the baseplate/cone construct with respect to the tibia block was measured during a stair descent loading profile for 10,000 cycles. The peak to peak micromotion of these various tibial constructs was compared. Unpaired T-tests were used to evaluate differences in peak to peak micromotion among the various tibial constructs tested. An analysis of variance was performed for final validation. Results The cemented short stem demonstrated similar varus/valgus displacement, internal/external rotation, compression, and lift off micromotion values under loading compared to a cementless long stem. A tibial cone improved compression and lift off micromotion for both cemented and cementless constructs. A short 50mm cemented stem with a cone demonstrated a lower micromotion at the anterior SI location compared to a press-fit 150mm cementless stem without a tibial cone.
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