Magnesium (Mg) is the fourth most abundant element in the human body and is important in
terms of specific osteogenesis functions. Here, we provide a comprehensive review of the …

Magnesium ions are directly involved in numerous biological mechanisms; for example, they
play an important part in the regulation of ion channels, DNA stabilization, enzyme activation …

Magnesium (Mg) alloys have attracted a wealth of attention in orthopedic fields for their
superior mechanical properties, degradability, and excellent biocompatibility. Consistently …

Abstract Magnesium cation (Mg 2+) has been an emerging therapeutic agent for inducing
vascularized bone regeneration. However, the therapeutic effects of current magnesium …

Silicate bioceramics have been considered to possess a wide prospect of clinical
application for orthopedic tissue regeneration due to their excellent osteogenesis and …

Mg alloys are biodegradable metals widely used in orthopedic and cardiovascular
applications because Mg ions are essential trace elements known to induce angiogenesis …

Coculture of osteoblasts and osteoclasts is a subject of interest in the understanding of how
magnesium (Mg)-based implants influence the bone metabolism and remodeling upon …

In recent years, bone regeneration has emerged as a remarkable field that offers promising
guidance for treating bone-related diseases, such as bone defects, bone infections, and …

Biomaterials and scaffolds for Tissue Engineering are widely used for an effective healing
and regeneration. However, the implantation of these scaffolds causes an innate immune …

The objective of the present study was to review recent epidemiological and clinical data on
the association between selected minerals and trace elements and osteoporosis, as well as …