Biomaterials with the ability to self-heal and recover their structural integrity offer many
advantages for applications in biomedicine. The past decade has witnessed the rapid …

Abstract 4D printing refers to single-material or multi-material printing of a device or object
that can be transformed from a 1D strand into pre-programed 3D shape, from a 2D surface …

Multiorgan-on-a-chip (multi-OoC) platforms have great potential to redefine the way in which
human health research is conducted. After briefly reviewing the need for comprehensive …

Hydrogel plays a vital role in cell-laden three dimensional (3D) bioprinting, whereas those
hydrogels mimic the physical and biochemical characteristics of native extracellular matrix …

In tissue engineering and regenerative medicine, a biomaterial provides mechanical support
and biochemical signals to encourage cell attachment and modulate cell behaviour …

The advent of 3D-printing/additive manufacturing in biomedical engineering field has
introduced great potential for the preparation of 3D structures that can mimic native tissues …

The multidisciplinary research field of bioprinting combines additive manufacturing, biology
and material sciences to create bioconstructs with three-dimensional architectures …

Cartilage degeneration is among the fundamental reasons behind disability and pain across
the globe. Numerous approaches have been employed to treat cartilage diseases …

Electrospinning provides an enabling nanotechnology platform for generating a rich variety
of novel structured materials in many biomedical applications including drug delivery …

Organ-on-A-chip (OoAC) devices are miniaturized, functional, in vitro constructs that aim to
recapitulate the in vivo physiology of an organ using different cell types and extracellular …