Biological apatites are characterised by various ionic substitutions within the HAp lattice that
are crucial for bone metabolism. The introduction of key role elements within synthetic …

Collagen mineralization is a biological process in many skeletal elements in the animal
kingdom. Examples of these collagen‐based skeletons are the siliceous spicules of glass …

Although extensive efforts have been put into the development of porous scaffolds for bone
regeneration, with encouraging results, all porous materials have a common limitation: the …

Healing of segmental bone defects remain a difficult problem in orthopedic and trauma
surgery. One reason for this difficulty is the limited availability of bone material to fill the …

At present hydroxyapatite (HA) is been extensively investigated for biomedical applications,
largely as a result of its similarity in composition to the mineral portion of bone. Although HA …

The mineral component of bone and other biological calcifications is primarily a carbonate
substituted calcium apatite. Integration of carbonate into two sites, substitution for phosphate …

The present work espouses a zero-waste approach for relying on indigenous waste
resources to deliver green and sustainable biofuel. This investigation reports biodiesel …

The regulatory role of the immune system in maintaining bone homeostasis and restoring its
functionality, when disturbed due to trauma or injury, has become evident in recent years …

The present work focus the study of cortical bone samples of different origins (human and
animal) subjected to different calcination temperatures (600, 900 and 1200° C) with regard …

Various types of grafts have been traditionally used to restore damaged bones. In the late
1960s, a strong interest was raised in studying ceramics as potential bone grafts due to their …