骨水泥-植入物界面间隙解释了CMW3股骨柄固定效果不佳的原因:一项关于迁移、疲劳和骨皮质形态的尸体研究。
Cement-implant interface gaps explain the poor results of CMW3 for femoral stem fixation: A cadaver study of migration, fatigue and mantle morphology.
作者信息
Race Amos, Miller Mark A, Clarke Michael T, Mann Kenneth A
机构信息
Musculoskeletal Science Research Center, Institute for Human Performance, SUNY Upstate Medical University, 750 East Adams Street, Syracuse, NY 13210, USA.
出版信息
Acta Orthop. 2005 Oct;76(5):679-87. doi: 10.1080/17453670510041763.
BACKGROUND
The Norwegian Arthroplasty Register reported that CMW3 cement performed poorly for femoral stem fixation.
METHODS
We implanted collared, satin-finished stems (Ra = 0.35 microm) into cadaver femora using CMW3 and with Simplex as control. Cement mantle function was quantified by stem migration after 300,000 cycles of "stair climbing". Cement cracks and interface gaps were quantified in transverse sections.
RESULTS
The variances of the CMW3 migrations were substantially higher than for the control (p < 0.001): subsidence for CMW3: -32 (SD 42) microm, and for Simplex: -7 (SD 9) microm (p = 0.2); retroversion for CMW3: 0.60 degrees (SD 0.25), and for Simplex: 0.37 degrees (SD 0.04) (p = 0.08). Crack length-densities were similar. CMW3 had significantly more non-apposed stem/cement interface: 52% (SD 17) versus 33% (SD 8) (p = 0.04). Migrations could be predicted by the fraction of non-apposed stem/cement interface (retroversion: R(2)=0.80, p < 0.001; subsidence: R(2) = 0.46, p = 0.02) but not by cement cracks or non-apposed cement-bone interface.
INTERPRETATION
We found that increased stem/cement non-apposition resulted in increased stem migration. Early migration is known to correlate with risk of revision. Thus, the higher stem-revision risk for CMW3 cement reported by the Norwegian Arthroplasty Register may have been due to inferior and variable stem/cement apposition.
背景
挪威关节成形术登记处报告称,CMW3骨水泥在股骨柄固定方面表现不佳。
方法
我们使用CMW3骨水泥并以Simplex骨水泥作为对照,将有领、缎面处理的股骨柄(表面粗糙度Ra = 0.35微米)植入尸体股骨。通过在300,000次“阶梯式上升”循环后股骨柄的移位来量化骨水泥套的功能。在横断面上对骨水泥裂缝和界面间隙进行量化。
结果
CMW骨水泥组股骨柄移位的方差显著高于对照组(p < 0.001):CMW3骨水泥组下沉为-32(标准差42)微米,Simplex骨水泥组为-7(标准差9)微米(p = 0.2);CMW3骨水泥组后倾为0.60度(标准差0.25),Simplex骨水泥组为0.37度(标准差0.04)(p = 0.08)。裂缝长度密度相似。CMW3骨水泥的股骨柄/骨水泥非贴合界面明显更多:52%(标准差17),而Simplex骨水泥组为33%(标准差8)(p = 0.04)。股骨柄移位可通过股骨柄/骨水泥非贴合界面的比例来预测(后倾:R² = 0.80,p < 0.001;下沉:R² = 0.46,p = 0.02),但不能通过骨水泥裂缝或骨水泥-骨非贴合界面来预测。
解读
我们发现股骨柄/骨水泥非贴合增加会导致股骨柄移位增加。已知早期移位与翻修风险相关。因此,挪威关节成形术登记处报告的CMW3骨水泥较高的股骨柄翻修风险可能是由于股骨柄/骨水泥贴合不良且存在差异所致。
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