Biomechanical evaluation on a novel design of biodegradable embossed locking compression plate for orthopaedic applications using finite element analysis
In orthopaedics, conventional implant plates such as locking compression plate (LCP) made
from non-biodegradable materials play a vital role in the fixation to support bone fractures …
from non-biodegradable materials play a vital role in the fixation to support bone fractures …
Design improvements to enhance mechanical performance of a locking compression plate as a biodegradable implant plate: a finite element analysis
Mg alloy is one of the most suitable biodegradable materials for making modern LCP. This is
due to the osseointegration property, low elastic modulus, the presence in the human bone …
due to the osseointegration property, low elastic modulus, the presence in the human bone …
Effectiveness of non-uniform thickness on a locking compression plate used as a biodegradable bone implant plate
Conventional locking compression plate (LCP) made of non-biodegradable materials are
well-known bone implants for internal fracture fixation because of their proven experimental …
well-known bone implants for internal fracture fixation because of their proven experimental …
[PDF][PDF] Material synthesis and design optimization of biomaterials for biomedical implant applications
Introduction: In the modern era, the use of biomaterials in orthopaedics has revolutionised
the healthcare sector. Traditionally, some non-biodegradable materials such as titanium and …
the healthcare sector. Traditionally, some non-biodegradable materials such as titanium and …
Finite element method-based simulation on bone fracture fixation configuration factors for biodegradable embossed locking compression plate
As an evolution, biodegradable implants need to maximize mechanical performance thereby
may lead to confusion in selection of the biodegradable material and implant design to the …
may lead to confusion in selection of the biodegradable material and implant design to the …