Mosich Gina M, Potter Hollis G, Koff Matthew F, Sacher Sara E, Mishu Mithun, Westrich Geoffrey H
Department of Orthopedic Surgery, Adult Reconstruction and Joint Replacement, Hospital for Special Surgery, New York, NY, USA.
Department of Radiology and Imaging, Hospital for Special Surgery, New York, NY, USA.
Arthroplast Today. 2022 Aug 30;17:126-131. doi: 10.1016/j.artd.2022.06.013. eCollection 2022 Oct.
The ability to utilize magnetic resonance imaging (MRI) to assess bony fixation may allow a better understanding of implant design and longevity. A new cementless total knee arthroplasty (TKA) was introduced, and we hypothesized that this cementless system would show similar fixation compared to a cemented system as assessed by multispectral MRI.
Multiacquisition variable-resonance image combination selective MRI was performed in 20 patients implanted with a cementless TKA. A matched control group of 20 patients who had a cemented TKA was also evaluated. Each patellar, femoral, and tibial component was graded globally as well as by specific zones. The patella zones were medial, lateral, superior, and inferior. The femoral and tibial components were divided into 4 zones: anteromedial, anterolateral, posteromedial, and posterolateral. Integration grades were performed for each zone as follows: (1) normal, (2) fibrous tissue, (3) fluid interface, (4) osteolysis. A Chi-square test was performed to detect differences in level of integration grades between patients with cemented and those with cementless TKA.
At average 16-month follow-up, the cementless group grading noted 0/80 (0%) vs 2/76 (2.63%) patellar zones with fluid interface, 0/80 (0%) vs 26/80 (32.5%) femoral zones with fibrous tissue, and 10/80 (12.5%) vs 17/80 (21.25%) tibial zones with fibrous tissue. The analysis showed patellar ( < .001), femoral ( < .001), and tibial ( < .001) components had improved fixation and less percentage of fibrous tissue and fluid present in the cementless TKA.
Utilizing metal suppression MRI, a newer cementless knee implant demonstrated excellent biologic fixation and improved fixation compared to the cemented group.
利用磁共振成像(MRI)评估骨固定的能力可能有助于更好地理解植入物设计和使用寿命。一种新型非骨水泥全膝关节置换术(TKA)被引入,我们假设通过多光谱MRI评估,这种非骨水泥系统与骨水泥系统相比将显示出相似的固定效果。
对20例植入非骨水泥TKA的患者进行多采集可变共振图像组合选择性MRI检查。还评估了20例接受骨水泥TKA的患者组成的匹配对照组。对每个髌、股和胫组件进行整体分级以及按特定区域分级。髌骨区域分为内侧、外侧、上侧和下侧。股骨和胫骨组件分为4个区域:前内侧、前外侧、后内侧和后外侧。对每个区域进行整合分级如下:(1)正常,(2)纤维组织,(3)液体界面,(4)骨溶解。进行卡方检验以检测骨水泥TKA患者和非骨水泥TKA患者之间整合分级水平的差异。
在平均16个月的随访中,非骨水泥组中出现液体界面的髌骨区域分级为0/80(0%),而骨水泥组为2/76(2.63%);出现纤维组织的股骨区域分级为0/80(0%),而骨水泥组为26/80(32.5%);出现纤维组织的胫骨区域分级为10/80(12.5%),而骨水泥组为17/80(21.25%)。分析表明,非骨水泥TKA的髌、股和胫组件固定得到改善,纤维组织和液体的百分比降低。
利用金属抑制MRI,一种新型非骨水泥膝关节植入物与骨水泥组相比显示出优异的生物固定效果和更好的固定效果。