MoM hip resurfacing is carried out in a similar way.
妈妈髋关节重铺路面进行了类似的方式。
This consideration is of particular importance given that many patients who have had hip resurfacing are likely to outlive the prosthesis.
这个考虑对于已经做了髋关节置换又可能比假体活得长的患者特别重要。
Hip resurfacing offers bone preservation and potential simplification of revision in young patients who are likely to outlive any contemporary implant.
髋关节表面置换提供骨保护和简化年轻患者潜在的翻修。
Objective: to observe and approach the relation between the range of femoral head necrosis and femoral neck fracture after the total hip resurfacing by biomechanics.
目的:通过生物力学实验观察并探讨股骨头坏死的范围大小与人工全髋表面置换术后发生股骨颈骨折的相关性。
As a result, implant survival is up and complications are down. Rates of re-operations are also lower for surgeons with extensive experience with the hip resurfacing procedure.
但是,利率仍是小到足以使它值得拥有的程序的许多病人谁是还没有准备好为一个完整的全髋关节置换术。
Overall, the hip resurfacing systems resulted in less ROM than the conventional tha systems, with the conventional tha having significantly more ROM in 12 of the 20 movements tested.
总之,髋关节表面重建系统结果与传统的THA系统相比活动度降低,用传统的THA在20个间的12个在运动试验中有显著好的活动度。
In summary, although the geometry of hip resurfacing components may limit their ROM in the laboratory setting, clinically patients may expect to achieve equivalent, if not better, ROM following HRA.
总之,虽然在实验室条件下髋关节表面置换部件的几何学可能限制他们的活动度,临床病人可能期望恢复到正常,如果不是更好,活动度则在HRA之后。
Since its inception, "revisability" has been claimed as one of the major advantages of resurfacing arthroplasty of the hip.
自从髋关节表面开始应用以来,“便于翻修”就被认为是其主要优点之一。
Biological resurfacing of the hip joint with engineered tissue is at present no more than a theoretical possibility.
目前利用组织工程行髋关节生物学表面置换已经不再是理论可能。
Biological resurfacing of the hip joint with engineered tissue is at present no more than a theoretical possibility.
目前利用组织工程行髋关节生物学表面置换已经不再是理论可能。
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