Recent years have witnessed surging demand for bone repair/regeneration implants due to
the increasing number of bone defects caused by trauma, cancer, infection, and arthritis …

Tissue regeneration, proliferation, and cell attachment are the objectives of a scaffold for
bone and cartilage-related defect treatments. The development of novel biodegradable …

For the generation of multi-layered full thickness osteochondral tissue substitutes with an
individual geometry based on clinical imaging data, combined extrusion-based 3D printing …

Leveraging 3D bioprinting for processing stem cell-laden biomaterials has unlocked a
tremendous potential for fabricating living 3D constructs for bone tissue engineering. Even …

Calcium phosphate cements (CPC) and mesoporous bioactive glasses (MBG) are two well
studied biomaterial groups widely under investigation on their applicability to treat bone …

Calcium phosphate cements (CPC) are currently widely used bone replacement materials
with excellent bioactivity, but have considerable disadvantages like slow degradation. For …

Their excellent mechanical properties, degradability and suitability for processing by 3D
printing technologies make the thermoplastic polylactic acid and its derivatives favourable …

Bioactive glasses have been used for bone regeneration applications thanks to their
excellent osteoconductivity, an osteostimulatory effect, and high degradation rate, releasing …

One of the most common hereditary craniofacial anomalies in humans are cleft lip and cleft
alveolar bone with or without cleft palate. Current clinical practice, the augmentation of the …

Monolayer cultures, the less standard three-dimensional (3D) culturing systems, and
xenografts are the main tools used in current basic and drug development studies of cancer …