The inkjet technique has the capability of generating droplets in the picoliter volume range,
firing thousands of times in a few seconds and printing in the noncontact manner. Since its …

Bioprinting is an emerging technology with various applications in making functional tissue
constructs to replace injured or diseased tissues. It is a relatively new approach that …

Bottom-up tissue engineering technologies address two of the main limitations of top-down
tissue engineering approaches: the control of mass transfer and the fabrication of a …

In 3D bioprinting, printing resolution represents the deposited material in the x-and y-axes,
while dimensionality defines the structural resolution of printed constructs. Dimensionality in …

The development of cell printing is vital for establishing biofabrication approaches as
clinically relevant tools. Achieving this requires bio-inks which must not only be easily …

Drop-on-demand bioprinting allows the controlled placement of living cells, and will benefit
research in the fields of tissue engineering, drug screening and toxicology. We show that a …

Research on human induced pluripotent stem cells (hiPSCs) is one of the fastest growing
fields in biomedicine. Generated from patient's own somatic cells, hiPSCs can be …

Despite the increasing laboratory research in the growing field of 3D bioprinting, there are
few reports of successful translation into surgical practice. This review outlines the principles …

Drop-on-demand (DOD) bioprinting has attracted huge attention for numerous biological
applications due to its precise control over material volume and deposition pattern in a …

Bioprinting technologies are powerful additive biofabrication techniques to produce cellular
constructs for skin tissue engineering owing to their unique ability to precisely pattern living …