Post‐operative bone growth and long‐term bone adaptation around the orthopaedic
implants are simulated using the mechanoregulation based tissue‐differentiation and …

Background The long-term success of total ankle replacement (TAR) depends on both bone
ingrowth and remodelling. The extreme values of implant-bone micromotion hinder bone …

Stress shielding due to difference in stiffness of bone and implant material is one among the
foremost causes of loosening and failure of load-bearing implants. Thus far, femoral …

Fixation of uncemented implant is influenced by peri-prosthetic bone ingrowth, which is
dependent on the mechanical environment of the implant–bone structure. The objective of …

The aim of this study is to investigate the effects of implant orientation and implant material
on tibia bone strain, implant–bone micromotion, maximum contact pressure, and wear depth …

Recent developments in acetabular implants suggest flexible, alternative bearing material
that may reduce wear and peri-prosthetic bone resorption. The goal of this study was to …

One of the major causes of implant loosening is due to excessive bone resorption
surrounding the implant due to bone remodelling. The objective of the study is to investigate …

The functionally graded porous metal‐backed (FGPMB) acetabular component has the
potential to minimize strain‐shielding induced bone resorption, caused by stiffness …

Using finite element (FE) models of intact and implanted hemipelvises, the study aimed to
investigate the influences of musculoskeletal loading and implant–bone interface conditions …

The implant stability and biomechanical response of periprosthetic bone in acetabulum
around total hip joint replacement (THR) devices depend on a host of parameters, including …