Add to ORKGThe long term stabilization and durability of cemented total hip replacement (THR) depends on not only the bulk properties of the components but also the interfaces through which they interact. The stem-cement interface has been consistently considered as a weak link in the stem-cement-bone system, being a transitional zone between two materials with significantly different mechanical properties. Previous research concerning this interface has been limited to investigation of interfacial shear strength through in vitro test and finite element analysis (FEA). Until now, a deep insight into the contact characteristics at this interface, especially the interaction between femoral stems with various surface finishes and bone cement, has not bee...
Although some reports suggest that taper-slip cemented stems may be associated with a higher peripro...
Global and local finite element (FE) models with debonded stem-cement interfaces were used to study ...
The orthopedic market offers more than 200 hundred different femoral stems, some with scientific pu...
The stem–cement interface has long been implicated in failure of cemented total hip replacement. Muc...
Aseptic loosening at the stem cement interface has been noted as a prominent failure mode in cemente...
Loosening of total joint replacements continues to be a major mode of failure in cemented total join...
After cemented total hip arthroplasty (THA) there may be failure at either the cement-stem or the ce...
We studied the effect of the surface finish of the stem on the transfer of load in the proximal femu...
Stem–cement and cement–bone interfacial failures as well as cement fractures have been noted in ceme...
The clinical success of polished tapered stems has been widely reported in numerous long term studie...
Finite element (FE) analysis is a widely used tool for extensive preclinical testing of orthopaedic ...
Cemented total hip arthroplasty (THA) has enjoyed widespread success since its introduction over thi...
Debonding of the stem–cement interface has been implicated in the initiation of failure of cemented ...
Stem cement debonding is 1 of the most common forms of fixation failure and is thought to be a prelu...
Mechanical loosening is a common mode of joint replacement failure. For cemented implants, loosening...
Although some reports suggest that taper-slip cemented stems may be associated with a higher peripro...
Global and local finite element (FE) models with debonded stem-cement interfaces were used to study ...
The orthopedic market offers more than 200 hundred different femoral stems, some with scientific pu...
The stem–cement interface has long been implicated in failure of cemented total hip replacement. Muc...
Aseptic loosening at the stem cement interface has been noted as a prominent failure mode in cemente...
Loosening of total joint replacements continues to be a major mode of failure in cemented total join...
After cemented total hip arthroplasty (THA) there may be failure at either the cement-stem or the ce...
We studied the effect of the surface finish of the stem on the transfer of load in the proximal femu...
Stem–cement and cement–bone interfacial failures as well as cement fractures have been noted in ceme...
The clinical success of polished tapered stems has been widely reported in numerous long term studie...
Finite element (FE) analysis is a widely used tool for extensive preclinical testing of orthopaedic ...
Cemented total hip arthroplasty (THA) has enjoyed widespread success since its introduction over thi...
Debonding of the stem–cement interface has been implicated in the initiation of failure of cemented ...
Stem cement debonding is 1 of the most common forms of fixation failure and is thought to be a prelu...
Mechanical loosening is a common mode of joint replacement failure. For cemented implants, loosening...
Although some reports suggest that taper-slip cemented stems may be associated with a higher peripro...
Global and local finite element (FE) models with debonded stem-cement interfaces were used to study ...
The orthopedic market offers more than 200 hundred different femoral stems, some with scientific pu...