Although prosthesis-bone micromotion is known to influence the stability of total hip replacement, no protocol exists to investigate resurfacing hip implants. An in-vitro protocol was developed to measure prosthesis-bone micromotions of resurfaced femurs. In order to assess the effect of all loading directions, the protocol included a variety of in-vitro loading scenarios covering the range of directions spanned by the hip resultant force in the most typical motor tasks. Gap-opening and shear-slippage micromotions were measured in the locations where they reach the maximum value. The applicability of the protocol was assessed on two commercial designs and different head sizes. Intra-specimen repeatability and inter-specimen reproducibility ...
In total hip arthroplasty, micromotions at the implant—bone interface influence the long-term surviv...
Item does not contain fulltextThe finite element (FE) method has become a common tool to evaluate pe...
Osteolysis is the main cause of aseptic loosening and stem failure. The mechanism that leads to oste...
Although prosthesis-bone micromotion is known to influence the stability of total hip replacement, n...
The aim of this study is to assess the initial stability of a femoral revision stem, taking into acc...
The initial stability of cementless femoral components is crucial for the long-term success of total...
Accurate pre-clinical evaluation of the initial stability of new cementless hip stems using in vitro...
Long-term clinical success of total hip replacement surgery is dependent on initial implant stabilit...
The hip is one of the most injured joint in the body with ageing. Osteoarthritis and degenerative di...
Item does not contain fulltextIn this study, the initial stability of the femoral component of a min...
OBJECTIVE: This study investigates by means of a new bone-prosthesis interface motion detector wheth...
Abstract: Cemented total hip replacement has become a standard surgical technique to treat patients ...
Given the relatively short survival time of total hip replacement in young patients, a different con...
Abstract. Aseptic loosening is one of the major causes for revision surgery in hip arthroplasty. Thi...
Objective. To compare the in vitro stability of two cemented hip stem designs: Stem I was a collarle...
In total hip arthroplasty, micromotions at the implant—bone interface influence the long-term surviv...
Item does not contain fulltextThe finite element (FE) method has become a common tool to evaluate pe...
Osteolysis is the main cause of aseptic loosening and stem failure. The mechanism that leads to oste...
Although prosthesis-bone micromotion is known to influence the stability of total hip replacement, n...
The aim of this study is to assess the initial stability of a femoral revision stem, taking into acc...
The initial stability of cementless femoral components is crucial for the long-term success of total...
Accurate pre-clinical evaluation of the initial stability of new cementless hip stems using in vitro...
Long-term clinical success of total hip replacement surgery is dependent on initial implant stabilit...
The hip is one of the most injured joint in the body with ageing. Osteoarthritis and degenerative di...
Item does not contain fulltextIn this study, the initial stability of the femoral component of a min...
OBJECTIVE: This study investigates by means of a new bone-prosthesis interface motion detector wheth...
Abstract: Cemented total hip replacement has become a standard surgical technique to treat patients ...
Given the relatively short survival time of total hip replacement in young patients, a different con...
Abstract. Aseptic loosening is one of the major causes for revision surgery in hip arthroplasty. Thi...
Objective. To compare the in vitro stability of two cemented hip stem designs: Stem I was a collarle...
In total hip arthroplasty, micromotions at the implant—bone interface influence the long-term surviv...
Item does not contain fulltextThe finite element (FE) method has become a common tool to evaluate pe...
Osteolysis is the main cause of aseptic loosening and stem failure. The mechanism that leads to oste...