Bone is a dynamic self-healing organ and a continuous remodeling ensures the restoration
of the bone structure and function over time. However, bone remodeling is not able to repair …

Over the last decades, the fabrication of 3D tissues has become commonplace in tissue
engineering and regenerative medicine. However, conventional 3D biofabrication …

Bone biomaterials play a vital role in bone repair by providing the necessary substrate for
cell adhesion, proliferation, and differentiation and by modulating cell activity and function. In …

The cell microenvironment has emerged as a key determinant of cell behavior and function
in development, physiology, and pathophysiology. The extracellular matrix (ECM) within the …

Our goal was to generate functionalized 3D-printed scaffolds for bone regeneration using
silk-hydroxyapatite bone cements and osteoinductive, proangiogenic and neurotrophic …

The porous structure design of implants can not only obtain a more lightweight implant but
also provide more space for its cell growth. The technology development of additive …

The rising incidence of bone disorders has resulted in the need for more effective therapies
to meet this demand, exacerbated by an increasing ageing population. Bone tissue …

Fabricating 3D large‐scale bone tissue constructs with functional vasculature has been a
particular challenge in engineering tissues suitable for repairing large bone defects. To …

Recent advances in three-dimensional (3D) printing technologies have led to a rapid
expansion of applications from the creation of anatomical training models for complex …

Abstract Vat Photopolymerization (stereolithography, SLA), an Additive Manufacturing (AM)
or 3D printing technology, holds particular promise for the fabrication of tissue scaffolds for …