Abstract Three-dimensional (3D) printing is becoming a booming technology to fabricate
scaffolds, orthoses, and prosthetic devices for tissue engineering, regenerative medicine …

Compared with traditional internal fixation devices, bone adhesives are expected to exhibit
remarkable advantages, such as improved fixation of comminuted fractures and maintained …

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

Three-dimensional (3D) bioprinting is a unique combination of technological advances in
3D printing and tissue engineering. It has emerged as a promising approach to address the …

Anatomical complications of the craniofacial regions often present considerable challenges
to the surgical repair or replacement of the damaged tissues. Surgical repair has its own set …

The development of tissue engineering strategies for treatment of large bone defects has
become increasingly relevant, given the growing demand for bone substitutes. Native bone …

Bone defects and complex fractures present significant challenges for orthopaedic
surgeons. Current surgical procedures involve the reconstruction and mechanical …

The fabrication of patient-specific scaffolds for bone substitutes is possible through extrusion-
based 3D printing of calcium phosphate cements (CPC) which allows the generation of …

Hydrothermal (H) processes accelerate the hydrolysis reaction of α-tricalcium phosphate (α-
TCP) compared to the long-established biomimetic (B) treatments. They are of special …

Cultured Meat (CM) is a growing field in cellular agriculture, driven by the environmental
impact of conventional meat production, which contributes to climate change and …