Calcium phosphate (CaP) bioceramics are widely used in the field of bone regeneration,
both in orthopedics and in dentistry, due to their good biocompatibility, osseointegration and …

The complex interaction of cells with biomaterials (ie, materiobiology) plays an increasingly
pivotal role in the development of novel implants, biomedical devices, and tissue …

The ability to investigate substances at the molecular level has boosted the search for
materials with outstanding properties for use in medicine. The application of these novel …

Stem cells respond to nanoscale surface features, with changes in cell growth and
differentiation mediated by alterations in cell adhesion. The interaction of nanotopographical …

Surface charge on biomaterials is emerging as a crucial determinant of regulating cells
responses impacting cells signaling in tissue treatment. The dynamic cell-material …

This tutorial review offers protocols, tips, insight, and considerations for practitioners
interested in using micromilling to create microfluidic devices. The objective is to provide a …

Biomaterials in the form of scaffolds hold great promise in the regeneration of diseased
tissues. The scaffolds stimulate cellular adhesion, proliferation and differentiation. While the …

Titanium and titanium alloys exhibit a unique combination of strength and biocompatibility,
which enables their use in medical applications and accounts for their extensive use as …

Current state-of-the-art biomedical implants and tissue engineering methods promise
technologies to improve or even restore the function of diseased organs. However, one of …

At present, strong requirements in orthopaedics are still to be met, both in bone and joint
substitution and in the repair and regeneration of bone defects. In this framework …