A systematic analysis of results available from in vitro, in vivo and clinical trials on the effects
of biocompatible calcium phosphate (CaP) coatings is presented. An overview of the most …

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 …

Additive manufacturing (AM), nowadays commonly known as 3D printing, is a revolutionary
materials processing technology, particularly suitable for the production of low-volume parts …

A novel method for the preparation of gelatin scaffolds was designed by varying the
crosslinking temperature. Four pore size ranges of genipin-crosslinked gelatin scaffolds …

In the last two decades, additive manufacturing (AM) has made significant progress towards
the fabrication of biomaterials and tissue engineering constructs. One direction of research …

Bionanocomposites formed by combining biodegradable polymers and nanosized
osteoconductive inorganic solids have been regarded as promising biomimetic systems …

Scaffolds for tissue engineering are usually designed to support cell viability with large
adhesion surfaces and high permeability to nutrients and oxygen. Recent experiments …

Porous biomaterials have been widely used in a variety of orthopedic applications. Porous
scaffolds stimulate the cellular responses and accelerate osteogenesis. The porous …

The present work assesses the potential of three-dimensional (3D) porous titanium (pore
size of 188–390 μm and porosity of 70%) fabricated by vacuum diffusion bonding of titanium …

Selective laser melting (SLM), a method used in the nuclear, space, and racing industries,
allows the creation of customized titanium alloy scaffolds with highly defined external shape …