Biodegradable magnesium has regained great attention due to its ability to temporarily offer
mechanical strength and degrade completely once the injured pathological tissue is healed …

As an essential element, magnesium is involved in a variety of physiological processes.
Magnesium is the second most abundant cation in cells and the fourth most abundant cation …

Magnesium phosphate (MgP) is a family of newly developed resorbable bioceramics for
bone tissue engineering. Although calcium phosphates (CaP) are the most commonly used …

There is increasing interest in the development of bone repair materials for biomedical
applications. Magnesium (Mg)-based alloys have a natural ability to biodegrade because …

Magnesium is projected for use as a degradable orthopedic biomaterial. However, its fast
degradation in physiological media is considered as a significant challenge for its successful …

Effective scaffolds for bone-tissue-engineering are those that combine adequate mechanical
and chemical performance with osseointegrative, angiogenetic and anti-bacterial modes of …

The scaffold of bone repair needs a variety of material combinations to meet its intended
performance; a typical single material such as zirconia has excellent mechanical properties …

The key aim of this review study is to expose the in vitro and in vivo research progresses on
the Magnesium phosphate cement (MPC) bioceramics in the orthopedic and dental zones …

To overcome from critical size bone defects, calcium phosphate (CaP) based ceramics have
been widely explored. The compositional similarity with bone matrix and degradability are …

Lanthanum (La) compounds have attracted much attention because of low toxicity and
biocompatibility. In this study, a series of La-doped magnesium phosphate composites bone …