Innovative drug screening platforms should improve the discovery of novel and personalized cancer treatment. Common models such as animals and 2D cell cultures lack the proper recapitulation of organ structure and environment. Thus, a new generation of platforms must consist of cell models that accurately mimic the cells' microenvironment, along with flexibly prototyped cell handling structures that represent the human environment. Here, we adapted the 3D-bioprinting technology to develop multiple all-inclusive high throughputs and customized organ-on-a-chip-like platforms along with printed 3D-cell structures. Such platforms are potentially capable of performing 3D cell model analysis and cell-therapeutic response studies. We illustra...
In vitro cancer 3D models are valuable tools to provide mechanistic insight into solid tumor growth,...
Multimaterial bioprinting technologies offer promising avenues to create mini-organ models with enha...
International audienceThree dimensional (3D) bioprinting of multiple cell types within optimised ext...
Innovative drug screening platforms should improve the discovery of novel and personalized cancer tr...
The tumor microenvironment (TME) typically comprises cancer cells, tumor vasculature, stromal compon...
Tumor cells evolve in a complex and heterogeneous environment composed of different cell types and a...
The cancer microenvironment is known for its complexity, both in its content as well as its dynamic ...
The National Cancer Institute estimates that approximately 40% of men and women will be diagnosed wi...
The drug discovery process is very long, costly, and challenging but essential in medical sciences. ...
Combinatorial conjugation of organ-on-a-chip platforms with additive manufacturing technologies is r...
Organ-on-a-chip (OOC) platforms recapitulate human in vivo-like conditions more realistically compar...
Bioprinting technology is the most advanced technology for producing biomimetic cellular constructs....
Regenerative medicine and tissue engineering have seen unprecedented growth in the past decade, driv...
The complex and heterogenous nature of cancer contributes to the development of cancer cell drug res...
Anti-cancer drug development typically utilizes high-throughput screening with two-dimensional (2D) ...
In vitro cancer 3D models are valuable tools to provide mechanistic insight into solid tumor growth,...
Multimaterial bioprinting technologies offer promising avenues to create mini-organ models with enha...
International audienceThree dimensional (3D) bioprinting of multiple cell types within optimised ext...
Innovative drug screening platforms should improve the discovery of novel and personalized cancer tr...
The tumor microenvironment (TME) typically comprises cancer cells, tumor vasculature, stromal compon...
Tumor cells evolve in a complex and heterogeneous environment composed of different cell types and a...
The cancer microenvironment is known for its complexity, both in its content as well as its dynamic ...
The National Cancer Institute estimates that approximately 40% of men and women will be diagnosed wi...
The drug discovery process is very long, costly, and challenging but essential in medical sciences. ...
Combinatorial conjugation of organ-on-a-chip platforms with additive manufacturing technologies is r...
Organ-on-a-chip (OOC) platforms recapitulate human in vivo-like conditions more realistically compar...
Bioprinting technology is the most advanced technology for producing biomimetic cellular constructs....
Regenerative medicine and tissue engineering have seen unprecedented growth in the past decade, driv...
The complex and heterogenous nature of cancer contributes to the development of cancer cell drug res...
Anti-cancer drug development typically utilizes high-throughput screening with two-dimensional (2D) ...
In vitro cancer 3D models are valuable tools to provide mechanistic insight into solid tumor growth,...
Multimaterial bioprinting technologies offer promising avenues to create mini-organ models with enha...
International audienceThree dimensional (3D) bioprinting of multiple cell types within optimised ext...