No abstract available.
Arthroplasty* ; Arthroplasty, Replacement, Hip*

No abstract available.
Arthroplasty* ; Arthroplasty, Replacement, Hip*

No abstract available.
Arthroplasty* ; Arthroplasty, Replacement, Hip*

No abstract available.
Arthroplasty* ; Arthroplasty, Replacement, Hip*

No abstract available.
Arthroplasty, Replacement, Hip* ; Hip*

When performing cementless hip arthroplasty, it is critical to achieve firm primary mechanical stability followed by biological fixation. In order to achieve this, it is essential to fully understand characteristics of implant design. In this review, the authors review fixation principles for a variety of implants used for cementless hip replacement and considerations for making an optimal selection.
Arthroplasty* ; Arthroplasty, Replacement, Hip ; Hip*

No abstract available.
Arthroplasty ; Arthroplasty, Replacement, Hip* ; Hip

We experienced two cases of asymptomatic intrapelvic masses with calcific density walls in failed cementless total hip arthroplasties. The intrapelvic masses communicated with the hip joint along the screw in one case and a medial wall defect in the other case. Instead of excision, the masses were drained and the failed components were revised. Two years after revision arthroplasties, the intrapelvic masses have not increased in size; and there was a thick calcific density wall in the second case. We conclude that the excision of an intrapelvic mass is not always mandatory when it is symptomless.
Arthroplasty ; Arthroplasty, Replacement, Hip* ; Hip ; Hip Joint

133 cases of total hip arthroplasty at the lower limb department of the center for traumatology and orthopaedy from January 1995 to December 1999. One hundred and thirty-three cases of hip arthroplasty had been done for one hundred and twenty patients from January 1995 to December 1999 at the Lower Limb Department of the Center for Traumatology and Orthopaedy. The rate of excellent and good results was 93.2%, medium: 3.4%, and poor: 2.5%. Complications after hip arthroplasty included: infection 3%, dislocation 5.2% and femoral fracture 2.2%. Our five-years follow-up is a review of the
Arthroplasty, Replacement, Hip ; Traumatology

Purpose: To investigate the extent of bone ingrowth into the porous-coated acetabular cups as well as the factors that correlated with bone ingrowth in total hip arthroplasty. Materials and Methods: Thirty six Harris-Galante porous-coated acetabular cups that were retrieved through revision surgery were examined in this study. Acetabular cups retrieved due to infection or severely destroyed cups (ed note: severe what?) were excluded. The extent of bone ingrowth into the acetabular cups was grossly measured, and its correlation with the variables including age, gender, weight, height, the duration of fixation, size, number of screws, inclination and anteversion was statistically analyzed. Results: The mean proportion of bone ingrowth was 52.9 21.9%(2~90%) and less than 30% in three cups(8.3%). The pattern and the location of bone ingrowth were not consistent. There was no correlation between the extent of bone ingrowth and age, gender, weight, height, the duration of fixation, cup size, number of screws, size, inclination and anteversion. Conclusion: Harris-Galante porous-coated acetabular cups showed satisfactory bone ingrowth regardless of the variables associated with the demographic or surgical conditions. Surface treatments with a fiber-metal porouscoating appears to be suitable for cementless acetabular cups in terms of the long term results.
Acetabulum* ; Arthroplasty, Replacement, Hip