The last decade has seen a significant growth in the market for alloys used for implants,
especially for those intended for orthopedic implants. Research into biodegradable …

Biodegradable materials, including natural and synthetic polymers and hydrolyzable metals,
constitute the main components of temporary, implantable medical devices. Besides the …

Magnesium-based biodegradable metals (BMs) as bone implants have better mechanical
properties than biodegradable polymers, yet their strength is roughly less than 350 MPa. In …

Biodegradable Mg‐based metals may be promising orthopedic implants for treating
challenging bone diseases, attributed to their desirable mechanical and osteopromotive …

Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

Mg and its alloys are drawing huge attention since the last two decades as a viable option
for temporary implants applications. A commendable progress has already been made in …

Transient electronic systems represent an emerging class of technology that is defined by an
ability to fully or partially dissolve, disintegrate, or otherwise disappear at controlled rates or …

Biodegradable magnesium (Mg) alloys exhibit excellent biocompatibility, adequate
mechanical properties, and osteogenic effect. They can contribute to complete recovery of …

With the growing demand for next-generation health care, the integration of electronic
components into implantable medical devices (IMDs) has become a vital factor in achieving …

The use of biomedical metallic materials in research and clinical applications has been an
important focus and a significant area of interest, primarily owing to their role in enhancing …