Bioinks are formulations of biomaterials and living cells, sometimes with growth factors or
other biomolecules, while extrusion bioprinting is an emerging technique to apply or deposit …

Bone tissue engineering (BTE) is a rapidly growing field aiming to create a biofunctional
tissue that can integrate and degrade in vivo to treat diseased or damaged tissue. It has …

Abstract Three‐dimensional (3D) bioprinting has recently advanced as an important tool to
produce viable constructs that can be used for regenerative purposes or as tissue models …

Abstract 3D bioprinting involves the combination of 3D printing technologies with cells,
growth factors and biomaterials, and has been considered as one of the most advanced …

During the past two decades, tissue engineering and the regenerative medicine field have
invested in the regeneration and reconstruction of pathologically altered tissues, such as …

The advent of 3D-printing/additive manufacturing in biomedical engineering field has
introduced great potential for the preparation of 3D structures that can mimic native tissues …

Abstract Four-dimensional (4D) bioprinting, in which the concept of time is integrated with
three-dimensional (3D) bioprinting as the fourth dimension, has currently emerged as the …

Bioprinting is rapidly being adopted as a major method for fabricating tissue engineering
constructs. Through the precise deposition of cell-and bioactive molecule-laden materials …

Bioprinting is a process based on additive manufacturing that uses biomaterials as the
microenvironment for living cells. These materials often referred to as bioinks, are based on …

Abstract 3D bioprinting, a vital tool in tissue engineering, drug testing, and disease
modeling, is increasingly integrated with machine learning (ML) and artificial intelligence …