Buly R L, Huo M H, Salvati E, Brien W, Bansal M
Department of Orthopaedic Surgery, Case Western Reserve University Hospital, Cleveland, OH 44106.
J Arthroplasty. 1992 Sep;7(3):315-23. doi: 10.1016/0883-5403(92)90056-v.
Seventy-one cemented total hip arthroplasties (THAs) were reviewed following removal of the all-titanium alloy femoral stem. Fifty-one hips were primary arthroplasties that failed due to aseptic loosening, 8 were previous revisions with aseptic loosening, and 12 were removed for infection. The average duration of service for the three groups was 4.5 years, 5.0 years, and 3.7 years, respectively. Femoral bone loss in aseptically loose, primary THA was graded as severe in 51%, moderate in 24%, and mild in 20%. Femoral endosteolysis was present in 94%, while acetabular osteolysis was seen in 6%. Histological evaluation of tissues from failed primary arthroplasties revealed polymethyl methacrylate debris in 75% of cases, polyethylene debris in 80%, metal debris in 75%, and chronic inflammatory cells in all cases. Metallic debris was not seen in the failed revision cases and in only 17% of the infected cases. Examination of retrieved femoral components revealed burnishing of the head in all cases, while 71% of stems with aseptic loosening were abraded from the cement. Metal levels from 12 cases averaged 2,111 mg/g of dry tissue (range, 60-11,823); synovial fluid levels from 8 other cases averaged 106 mg/l (range, 22-340). While it is not certain whether metallic particles are a primary cause of loosening or are generated secondarily, their presence seems to accelerate bone loss and loosening.
在取出全钛合金股骨柄后,对71例骨水泥型全髋关节置换术(THA)进行了回顾性研究。51例髋关节为初次置换术,因无菌性松动而失败;8例为先前的翻修术,存在无菌性松动;12例因感染而取出。三组的平均使用年限分别为4.5年、5.0年和3.7年。在无菌性松动的初次THA中,股骨骨丢失严重程度分级为:严重占51%,中度占24%,轻度占20%。94%存在股骨骨内膜溶解,而髋臼骨溶解见于6%。对初次置换术失败病例的组织进行组织学评估发现,75%的病例中有聚甲基丙烯酸甲酯碎片,80%有聚乙烯碎片,75%有金属碎片,所有病例均有慢性炎症细胞。在翻修失败病例和仅17%的感染病例中未见到金属碎片。对取出的股骨部件进行检查发现,所有病例的股骨头均有抛光现象,而71%无菌性松动的股骨柄从骨水泥中磨损。12例病例的金属含量平均为2111mg/g干组织(范围为60 - 11823);另外8例病例的滑液金属含量平均为106mg/l(范围为22 - 340)。虽然尚不确定金属颗粒是松动的主要原因还是继发产生的,但它们的存在似乎会加速骨丢失和松动。
