Abstract 3D bioprinting has the capability to create 3D cellular constructs with the desired
shape using a layer-by-layer approach. Inkjet 3D bioprinting, as a key component of 3D …

Abstract Three-dimensional (3D) printing technology has been widely used in various
manufacturing operations including automotive, defence and space industries. 3D printing …

Three-dimensional (3D) bioprinting techniques, developed over the past two decades, have
the potential to fabricate living, patient-specific tissues and organs for use in regenerative …

Biomanufacturing of tissues/organs in vitro is our big dream, driven by two needs: organ
transplantation and accurate tissue models. Over the last decades, 3D bioprinting has been …

Over recent decades, three-dimensional (3D) bioprinting has been studied, improved, and
extensively applied to various areas such as medicine, healthcare, food technology, etc …

Abstract 3D bioprinting is an advanced additive manufacturing approach evolved from
traditional 3D printing to fulfill specific requirements for the applications of tissue engineering …

In recent years, 3D bio-printing technology has developed rapidly and become an advanced
bio-manufacturing technology. At present, 3D bio-printing technology has been explored in …

Abstract Three-dimensional (3D) printing is a novel promising technology based on 3D
imaging and layer-by-layer additive fabrication. It has a profound influence on all aspects of …

In the additive manufacturing method known as 3D bioprinting, living cells and nutrients are
joined with organic and biological components to produce synthetic structures that resemble …

Abstract 3D bioprinting is a method that is used for the production of functional tissues and
organs. It does not just establish a foundation for the excellent goal of organ replacement but …