Preprint / Version 1

About biological hip joint prostheses and the biomechanical behavior of implanted femur

##article.authors##

  • Raffaella Aversa dvanced Materials Lab, Department of Architecture and Industrial Design, Second University of Naples
  • Relly Victoria Virgil Petrescu IFToMM
  • Antonio Apicella Advanced Materials Lab, Department of Architecture and Industrial Design, Second University of Naples
  • Florian Ion Tiberiu Petrescu IFToMM

Keywords:

Biotechnology, Bioengineering, Biomaterials, Trabecular bone, Biomimetic, Biomechanics, Trabecular prostheses

Abstract

Biofidel femur Models with finite elements were developed using a specific segmentation combination with computed tomography and solid modeling tools capable of representing bone physiology and structural behavior. These biofidel Finite Element Models (FEM) are used to evaluate the change in the physiological distribution of stress in the prosthesis femur and to evaluate the new design criteria for biopsy biopsy biopsy biopsy. The proposed belief patterns allowed us to adequately take into account the non-isotropic features of the proximal femoral epiphysis and isotropic behavior in diaphysis to explain the critical changes in stress distribution in a femur resected after the implantation of a traditional articular prosthesis. It has been shown that a wide range of femoral diaphyses is completely protected by rigid prostheses that significantly alter the physiological distribution of stress, which should guarantee healthy growth and bone regeneration.

Downloads

Posted

2021-01-07
صندلی اداری سرور مجازی ایران Decentralized Exchange
فروشگاه اینترنتی