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 …

Additive Manufacturing (AM) is the significantly progressing field in terms of methods,
materials, and performance of fabricated parts. Periodical evaluation on the understanding …

Abstract 3D bioprinting is a pioneering technology that enables fabrication of biomimetic,
multiscale, multi-cellular tissues with highly complex tissue microenvironment, intricate …

Treating large bone defects, known as critical-sized defects (CSDs), is challenging because
they are not spontaneously healed by the patient's body. Due to the limitations associated …

The field of tissue engineering has progressed tremendously over the past few decades in
its ability to fabricate functional tissue substitutes for regenerative medicine and …

Advances in three-dimensional (3D) printing have increased feasibility towards the
synthesis of living tissues. Known as 3D bioprinting, this technology involves the precise …

The success of an implant depends on the type of biomaterial used for its fabrication. An
ideal implant material should be biocompatible, inert, mechanically durable, and easily …

Fibrin gel has been widely used for engineering various types of tissues due to its
biocompatible nature, biodegradability, and tunable mechanical and nanofibrous structural …

Bioprinting is a process based on additive manufacturing from materials containing living
cells. These materials, often referred to as bioink, are based on cytocompatible hydrogel …

Droplet-based bioprinting (DBB) offers greater advantages due to its simplicity and agility
with precise control on deposition of biologics including cells, growth factors, genes, drugs …