Cementless femoral stems are prone to stress shielding of the femoral bone, which is
caused by a mismatch in stiffness between the femoral stem and femur. This can cause …

In recent years, numerous studies have been conducted on the crack-healing behavior of
ceramic materials. Design of ceramic structures with the ability of crack-healing in service is …

Fiber reinforced plastics can absorb energy, in the unlikely event of a crash, on the other
hand, foam improves the structural integrity of the device being filled with. Therefore, foam …

This novel study presents the application of biodegradable bio-glass fibers (BGF)/polylactic
acid (PLA) composite and magnesium (Mg) wires (fluoride-coated)/PLA composite bone …

Colon leakage is one of the most severe complications in abdominal trauma or surgery
cases. It can lead to severe abdominal infection and abdominal adhesions, resulting in …

Novel metamaterial unit cells with tunable strain were incorporated into titanium
intramedullary (IM) nails to overcome problems of dense metallic implants. Three …

Abstract Background and Objectives Knee flexion causes a certain amount of misalignment
and relative movement of the fractured ends of the femur fracture, and if the flexion angle is …

Dense metallic bone plates often cause stress shielding, delayed healing, or bone non-
unions. Therefore, three-dimensional models of partially biodegradable titanium/polyglycolic …

In this paper, finite element analysis of a fractured tibia with a glass/polypropylene
composite implant is introduced. A rejection coefficient algorithm (for callus development) …

The coated porous section of stem surface is initially filled with callus that undergoes
osseointegration process, which develops a bond between stem and bone, lessens the …