Additive manufacturing techniques offer the potential to fabricate organized tissue constructs
to repair or replace damaged or diseased human tissues and organs. Using these …

With advances in tissue engineering, the possibility of regenerating injured tissue or failing
organs has become a realistic prospect for the first time in medical history. Tissue …

Biofabrication holds the potential to generate constructs that more closely recapitulate the
complexity and heterogeneity of tissues and organs than do currently available regenerative …

In this study, we present and characterize a fiber deposition technique for producing three-dimensional
poly(ethylene glycol)-terephthalate—poly(butylene terephthalate) (PEGT/PBT) …

… [43] Schuurman W, Khristov V, Pot MW, van Weeren R, Dhert WJ and Malda J 2011 Bioprinting
of hybrid tissue constructs with tailorable mechanical properties Biofabrication 3 021001 …

Research over the past decade on the cell–biomaterial interface has shifted to the third
dimension. Besides mimicking the native extracellular environment by 3D cell culture, hydrogels …

Biofabrication is an evolving research field that has recently received significant attention. In
particular, the adoption of Biofabrication concepts within the field of Tissue Engineering and …

Despite intensive research, hydrogels currently available for tissue repair in the musculoskeletal
system are unable to meet the mechanical, as well as the biological, requirements for …

Gelatin‐methacrylamide (gelMA) hydrogels are shown to support chondrocyte viability and
differentiation and give wide ranging mechanical properties depending on several cross‐…

Regenerative medicine approaches based on decellularized extracellular matrix (ECM)
scaffolds and tissues are rapidly expanding. The rationale for using ECM as a natural …