Jetting-based bioprinting facilitates contactless drop-on-demand deposition of subnanoliter
droplets at well-defined positions to control the spatial arrangement of cells, growth factors …

Bone defects pose significant challenges in healthcare, with over 2 million bone repair
surgeries performed globally each year. As a burgeoning force in the field of bone tissue …

In this work, our proof-of-concept study can be used to predict the number of cells within
printed droplets based on droplet velocity at two different points along the nozzle-substrate …

In recent years, there has been widespread adoption of machine learning (ML) technologies
to unravel intricate relationships among diverse parameters in various additive …

Although inkjet-based bioprinting enables precise drop-on-demand cell deposition within
three-dimensional (3D) tissue constructs and facilitates critical cell–cell and cell–matrix …

Organ transplantation is the optimal treatment for patients with end-stage organ failure, but
which faces the challenge of donor shortage. Two-dimensional cell culture and animal …

Abstract Three-dimensional (3D) bioprinting, which has been applied in tissue engineering
and regenerative medicine, uses biomaterials, cells, and other essential components to …

Abstract three-dimensional (3D) printing is a highly automated platform that facilitates
material deposition in a layer-by-layer approach to fabricate pre-defined 3D complex …

Periodontitis and severe trauma are major causes of damage to the periodontal ligament
(PDL). Repairing the native conditions of the PDL is essential for the stability of the tissue …

Achieving efficient scaffolds for bone tissue engineering (TE) requires smartly defined
parameters for reaching a balance between physical–chemical properties, biocompatibility …