Degradable biomedical elastomers (DBE), characterized by controlled biodegradability,
excellent biocompatibility, tailored elasticity, and favorable network design and …

Current clinical treatment strategies for the bypassing of small diameter (< 6 mm) blood
vessels in the management of cardiovascular disease frequently fail due to a lack of suitable …

Fabrication of well-ordered and bio-mimetic scaffolds is one of the most important research
lines in tissue engineering. Different techniques have been utilized to achieve this goal …

Major challenges in biofabrication revolve around capturing the complex, hierarchical
composition of native tissues. However, individual 3D printing techniques have limited …

Melt electro writing (MEW) is a high-resolution 3D printing technique that combines
elements of electro-hydrodynamic fiber attraction and melts extrusion. The ability to precisely …

The current clinical solutions, including mechanical and bioprosthetic valves for valvular
heart diseases, are plagued by coagulation, calcification, nondurability, and the inability to …

Over the past decade, melt electrowriting (MEW) has established the fundamental
understanding of processing (and printer) requirements. Iterative work on parametric …

The field of melt electrowriting (MEW) has seen significant progress, bringing innovative
advancements to the fabrication of biomaterial scaffolds, and creating new possibilities for …

For nearly three decades, tissue engineering strategies have been leveraged to devise
effective therapeutics for dental, oral, and craniofacial (DOC) regenerative medicine and …

Highlights•Mimicking multilayer structures of a blood vessel, bilayer vascular grafts with
respective NO and H 2 S release capabilities were designed and fabricated for the first time …