Tissue engineering represents an advanced approach to treating patients who have
suffered tissue or organ loss or failure, with the ultimate goals of tissue restoration and …

Tissue engineering (TE) has attracted the widespread attention of the research community
as a method of producing patient-specific tissue constructs for the repair and replacement of …

Stem cell senescence is characterized by progressive functional dysfunction and secretory
phenotypic changes including decreased proliferation, dysfunction of osteogenic and …

Magnesium phosphate-based cements (MPCs) are nowadays regarded as promising
materials in the field of bone repair. The inclusion of Sr ions in the formulations may …

In the search for effective biomaterials for bone repair, magnesium phosphate cements
(MPCs) are nowadays gaining importance as bone void fillers thanks to their many attractive …

Tissue engineering and regenerative medicine is a highly sought-after field for researchers
aiming to compensate and repair defective tissues. However, the design and development …

Piezoelectric materials implanted in vivo will be affected by physiological stress, leading to
the generation of dynamic piezoelectrical signals. The cells identify both piezoelectrical and …

The treatment of critical bone defects remains a significant challenge for advanced
medicine. Chitosan/nano-hydroxyapatite (CS/nHA) composites have been widely developed …

In the present work, magnesium whitlockite (Mg-WH) powders were synthesized via a low-
temperature dissolution-precipitation process using gypsum as a starting material. The …

Dysregulated metal homeostasis is associated with many pathological conditions, including
arthritic diseases. Osteoarthritis and rheumatoid arthritis are the two most prevalent …