We developed a novel melt-based embedded printing strategy to fabricate polycaprolactone
(PCL) structures with complex overhanging geometries within a thermally stable supporting …

Drop on demand printing (DDP) is a solid freeform fabrication (SFF) technique capable of
generating microscale physical features required for tissue engineering scaffolds. Here, we …

Hybrid constructs represent substantial progress in tissue engineering (TE) towards
producing implants of a clinically relevant size that recapitulate the structure and …

Abstract Three-dimensional (3D) printing has emerged as a transformative technology for
tissue engineering, enabling the production of structures that closely emulate the intricate …

Numerous solid freeform fabrication (SFF) or rapid prototyping (RP) techniques have been
employed in the field of tissue engineering to fabricate specially organized three …

Biodegradable scaffolds are considered as the key component of tissue engineering which
serve as temporary structural supports for tissue regeneration. The mechanical/biological …

Additive manufacturing (AM) techniques are widely used to fabricate tissue-engineered
scaffolds due to their unique capability in constructing controllable macro/microarchitectures …

The use of polymeric biomaterials to create tissue scaffolds using additive manufacturing
techniques is a well‐established practice, owing to the incredible rapidity and complexity in …

Successes in scaffold guided tissue engineering require scaffolds to have specific
macroscopic geometries and internal architectures to provide the needed biological and …

The fabrication of scaffolds for tissue engineering requires elements of customization
depending on the application and is often limited due to the flexibility of the processing …