Biomaterials are considered a substantial building block for tissue engineering, regenerative
medicine, and drug delivery. Despite using both organic and inorganic biomaterials in these …

Three–dimensional bioprinting is an advanced tissue fabrication technique that allows
printing complex structures with precise positioning of multiple cell types layer–by–layer …

In tissue engineering, an unresolved challenge is how to build complex 3D scaffolds in order
to recreate the structure and function of human tissues and organs. Additive manufacturing …

Vascular tissue engineering has made prodigious progress in recent years by converging
multidisciplinary approaches. Latest technological advancements foster the development of …

It is difficult to fabricate tubular-shaped tissues and organs (eg, trachea, blood vessel, and
esophagus tissue) with traditional biofabrication techniques (eg, electrospinning, cell-sheet …

Transient electronics offer a promising solution for reducing electronic waste and for use in
implantable bioelectronics, yet their fabrication remains challenging. We report on a …

In the last decade, an emerging three-dimensional (3D) printing technique named freeform
3D printing has revolutionized the biomedical engineering field by allowing soft matters with …

Congenital and acquired valvular heart diseases (VHDs) are significant causes of mortality
worldwide. With valve replacement being the primary solution for VHD, current options …

Abstract 3D bioprinting has been developed as an effective and powerful technique for the
fabrication of living tissue constructs in a well-controlled manner. However, most existing 3D …

Fluid bath-assisted three-dimensional (3D) printing is an innovative 3D printing strategy that
extrudes liquid ink materials into a fluid bath to form various 3D configurations. Since the …