Background Bone regeneration involves various complex biological processes. Many
experiments have been performed using biomaterials in vivo and in vitro to promote and …

Bone is a dynamic organ with high regenerative potential and provides essential biological
functions in the body, such as providing body mobility and protection of internal organs …

Due to a prolonged life expectancy, the number of orthopedic-related fractures and
pathologies is increasing, leading to a tremendous demand for efficient orthopedic …

Bone remodeling process relies on complex signaling pathway between osteoblasts and
osteoclasts and control mechanisms to achieve homeostasis of their growth and …

The inorganic part of human bone is mainly composed of hydroxyapatite (HAP: Ca 10 (PO 4)
6 (OH) 2) and whitlockite (WH: Ca 18 Mg 2 (HPO 4) 2 (PO 4) 12) minerals, where the WH …

Materials based on Mg2+-containing phosphates are gaining great relevance in the field of
bone tissue repair via regenerative medicine methods. Magnesium ions, together with …

Endogenous electric fields naturally exist in our body and plays a vital role especially in the
development and regeneration of bones. Therefore, piezoelectric bone implants are gaining …

Biomimicking ceramics have been developed to induce efficient recovery of damaged hard
tissues. Among them, calcium phosphate‐based bioceramics have been the most widely …

Functional biomaterials that couple angiogenesis and osteogenesis processes are vital for
bone tissue engineering and bone remodeling. Herein we developed an injectable …

Magnesium whitlockite (Mg-WH, Ca18Mg2 (HPO4) 2 (PO4) 12) is a promising candidate for
biomedical application in bone regeneration; however, the fabrication of Mg-WH …