Abstract Background Three-dimensional (3D) cell cultures and 3D bioprinting have recently gained attention based on their multiple advantages over two-dimensional (2D) cell cultures, which have less translational potential to recapitulate human physiology. 3D scaffold supports, cell aggregate systems and hydrogels have been shown to accurately mimic native tissues and support more relevant cell-cell interactions for studying effects of drugs and bioactive agents on cells in 3D. The development of cost-effective, high-throughput and scaffold-free microtissue assays remains challenging. In the present study, consumer grade 3D printing was examined as a fabrication method for creation of high-throughput scaffold-free 3D spheroidal microtissues...
3D bioprinting has the potential to provide a unified framework for the manufacturing of tissue mode...
International audienceThree dimensional (3D) bioprinting of multiple cell types within optimised ext...
Most of in vivo tissue cells reside in 3D extracellular matrix (ECM) with fluid flow. To better stud...
The advent of 3D printing technologies promises to make microfluidic organ-on-chip technologies more...
The National Cancer Institute estimates that approximately 40% of men and women will be diagnosed wi...
Innovative drug screening platforms should improve the discovery of novel and personalized cancer tr...
This study presents a novel approach for threedimensional (3D) cell culture using a two-component sy...
Due to the fast pace advancements in 3D printing technologies, it is now possible to bring to life t...
Conventional drug screening processes are a time-consuming and expensive endeavor, but highly reward...
Abstract Background In vivo-mimicking conditions are critical in in vitro cell analysis to obtain cl...
Two-dimensional (2D) cell cultures are essential for drug development and tumor research. However, t...
Various cell aggregate culture technologies have been developed and actively applied to tissue engin...
Today’s 3D printing technologies offer great possibilities for biomedical researchers to create thei...
Today’s 3D printing technologies offer great possibilities for biomedical researchers to create thei...
Building human tissues via 3D cell printing technology has received particular attention due to its ...
3D bioprinting has the potential to provide a unified framework for the manufacturing of tissue mode...
International audienceThree dimensional (3D) bioprinting of multiple cell types within optimised ext...
Most of in vivo tissue cells reside in 3D extracellular matrix (ECM) with fluid flow. To better stud...
The advent of 3D printing technologies promises to make microfluidic organ-on-chip technologies more...
The National Cancer Institute estimates that approximately 40% of men and women will be diagnosed wi...
Innovative drug screening platforms should improve the discovery of novel and personalized cancer tr...
This study presents a novel approach for threedimensional (3D) cell culture using a two-component sy...
Due to the fast pace advancements in 3D printing technologies, it is now possible to bring to life t...
Conventional drug screening processes are a time-consuming and expensive endeavor, but highly reward...
Abstract Background In vivo-mimicking conditions are critical in in vitro cell analysis to obtain cl...
Two-dimensional (2D) cell cultures are essential for drug development and tumor research. However, t...
Various cell aggregate culture technologies have been developed and actively applied to tissue engin...
Today’s 3D printing technologies offer great possibilities for biomedical researchers to create thei...
Today’s 3D printing technologies offer great possibilities for biomedical researchers to create thei...
Building human tissues via 3D cell printing technology has received particular attention due to its ...
3D bioprinting has the potential to provide a unified framework for the manufacturing of tissue mode...
International audienceThree dimensional (3D) bioprinting of multiple cell types within optimised ext...
Most of in vivo tissue cells reside in 3D extracellular matrix (ECM) with fluid flow. To better stud...