This review covers several aspects of the rapid development of magnesium (Mg) alloys from
the owned properties and corrosion mechanism to the effect of optimization of mechanical …

Titanium has an extensive record of serving as an excellent option for the material used in
implant construction. It has been demonstrated that certain Ti alloys are superior to other …

Abstract High-purity (HP) magnesium (Mg) has emerged as a promising biomaterial for
supporting functional bone tissue. Our previous study found that mechanical stresses and …

In the current revolution of internal fixation implant in orthopaedics, a biodegradable implant
is the most awaited and exceptional medical device where biodegradable material has paid …

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 …

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 …

Locking compression plate (LCP) has conventionally been the most extensively employed
plate in internal fixation bone implants used in orthopaedic applications. LCP is usually …

Conventional locking compression plate (LCP) made of non-biodegradable materials are
well-known bone implants for internal fracture fixation because of their proven experimental …

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 …

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 …