Abstract Different three-dimensional (3D) printing techniques are being increasingly used to
produce medical apparatus due to their ability to print intended designs with high …

Tissue engineering is an emerging means for resolving the problems of tissue repair and
organ replacement in regenerative medicine. Insufficient supply of nutrients and oxygen to …

Limitations in wound management have prompted scientists to introduce bioprinting
techniques for creating constructs that can address clinical problems. The bioprinting …

Despite the extensive utilization of polysaccharide hydrogels in regenerative medicine,
current fabrication methods fail to produce mechanically stable scaffolds using only …

Three-dimensional (3D) printing plays an important role in cardiovascular disease through
the use of personalised models that replicate the normal anatomy and its pathology with …

In the last decade, bioprinting has emerged as a facile technique for fabricating tissues
constructs mimicking the architectural complexity and compositional heterogeneity of native …

Polysaccharide hydrogels and metal alloy nanoparticles have already found use in a range
of biomedical applications. Nickel-copper nanoparticles (NiCu NPs) are particularly …

Tissue engineering and regenerative medicine have come a long way in recent decades,
but the lack of functioning vasculature is still a major obstacle preventing the development of …

The evolution of additive manufacturing (AM) technologies, biomaterial development and
our increasing understanding of cell biology has created enormous potential for the …

The main idea of this study is to create a 3D printed scaffold to improve the mechanical
behavior of hydrogels for bone tissue engineering. This paper investigated the effects of infill …