Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

Building tissues from scratch to explore entirely new cell configurations could revolutionize
fundamental understanding in biology. Bioprinting is an emerging technology to do this …

Bioprinting promises enormous control over the spatial deposition of cells in three
dimensions,,,,,–, but current approaches have had limited success at reproducing the …

The generation of organoids and tissues with programmable cellular complexity,
architecture and function would benefit from the simultaneous differentiation of human …

Organoids form through self-organization processes in which initially homogeneous
populations of stem cells spontaneously break symmetry and undergo in-vivo-like pattern …

The treatment of bone defects remains a challenging clinical problem with high
reintervention rates, morbidity, and resulting significant healthcare costs. Surgical …

Helices are the most prevalent secondary structure in biomolecules and play vital roles in
their activity. Chemists have been fascinated with mimicking this molecular conformation …

We review recent evidence showing that cell and tissue dynamics are governed by
mesoscale physical principles. These principles can be understood in terms of simple state …

Abstract Three-dimensional (3D) porous scaffolds have a demonstrated value for tissue
engineering and regenerative medicine. Inspired by the predation processes of marine …

Recent technological breakthroughs in our ability to derive and differentiate induced
pluripotent stem cells, organoid biology, organ-on-chip assays, and 3-D bioprinting have all …