动平衡全膝关节置换术限制了胫骨高位力、各间室间胫骨力的差异,以及被动屈曲时胫骨接触运动学的异常。
Kinematically aligned total knee arthroplasty limits high tibial forces, differences in tibial forces between compartments, and abnormal tibial contact kinematics during passive flexion.
机构信息
Biomedical Engineering Graduate Group, University of California, Davis, One Shields Ave, Davis, CA, 95616, USA.
Department of Biomedical Engineering, University of California, Davis, 451 E. Health Sciences Drive, Davis, CA, 95616, USA.
出版信息
Knee Surg Sports Traumatol Arthrosc. 2018 Jun;26(6):1589-1601. doi: 10.1007/s00167-017-4670-z. Epub 2017 Sep 7.
PURPOSE
Following total knee arthroplasty (TKA), high tibial forces, large differences in tibial forces between the medial and lateral compartments, and anterior translation of the contact locations of the femoral component on the tibial component during passive flexion indicate abnormal knee function. Because the goal of kinematically aligned TKA is to restore native knee function without soft tissue release, the objectives were to determine how well kinematically aligned TKA limits high tibial forces, differences in tibial forces between compartments, and anterior translation of the contact locations of the femoral component on the tibial component during passive flexion.
METHODS
Using cruciate retaining components, kinematically aligned TKA was performed on thirteen human cadaveric knee specimens with use of manual instruments without soft tissue release. The tibial forces and tibial contact locations were measured in both the medial and lateral compartments from 0° to 120° of passive flexion using a custom tibial force sensor.
RESULTS
The average total tibial force (i.e. sum of medial + lateral) ranged from 5 to 116 N. The only significant average differences in tibial force between compartments occurred at 0° of flexion (29 N, p = 0.0008). The contact locations in both compartments translated posteriorly in all thirteen kinematically aligned TKAs by an average of 14 mm (p < 0.0001) and 18 mm (p < 0.0001) in the medial and lateral compartments, respectively, from 0° to 120° of flexion.
CONCLUSIONS
After kinematically aligned TKA, average total tibial forces due to the soft tissue restraints were limited to 116 N, average differences in tibial forces between compartments were limited to 29 N, and a net posterior translation of the tibial contact locations was observed in all kinematically aligned TKAs during passive flexion from 0° to 120°, which are similar to what has been measured previously in native knees. While confirmation in vivo is warranted, these findings give surgeons who perform kinematically aligned TKA confidence that the alignment method and surgical technique limit high tibial forces, differences in tibial forces between compartments, and anterior translation of the tibial contact locations during passive flexion.
目的
全膝关节置换术后,如果胫骨承受的力过高、内外侧间室的胫骨受力差异较大、股骨组件在胫骨组件上的接触位置在被动屈曲过程中向前平移,则表明膝关节功能异常。由于运动学对线膝关节置换术的目标是在不松解软组织的情况下恢复自然膝关节功能,因此本研究旨在确定运动学对线膝关节置换术在多大程度上限制了胫骨高受力、内外侧间室的胫骨受力差异以及股骨组件在胫骨组件上的接触位置在被动屈曲过程中的向前平移。
方法
使用保留十字韧带的组件,在不松解软组织的情况下,使用手动器械对 13 个人体尸体膝关节标本进行运动学对线膝关节置换术。使用定制的胫骨力传感器,在 0°至 120°的被动屈曲过程中,分别测量内侧和外侧间室的胫骨力和胫骨接触位置。
结果
平均总胫骨力(即内侧+外侧之和)范围为 5 至 116 N。仅在 0°屈曲时,胫骨间室的平均胫骨力存在显著差异(29 N,p = 0.0008)。在所有 13 例运动学对线膝关节置换术中,胫骨接触位置均向后平移,平均分别为 14 mm(p < 0.0001)和 18 mm(p < 0.0001),从 0°到 120°的屈曲。
结论
在运动学对线膝关节置换术后,由于软组织的限制,平均总胫骨力限制在 116 N 以内,胫骨间室的平均胫骨力差异限制在 29 N 以内,在 0°至 120°的被动屈曲过程中,所有运动学对线膝关节置换术中的胫骨接触位置都观察到向后的净平移,这与先前在自然膝关节中测量到的结果相似。虽然需要在体内得到证实,但这些发现让进行运动学对线膝关节置换术的外科医生有信心,该方法和手术技术限制了胫骨高受力、内外侧间室的胫骨受力差异以及胫骨接触位置在被动屈曲过程中的向前平移。
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