Engineers often rely on Mother Nature to help solve difficult problems. After millions of years of evolution, living organisms such as plants, animals, and microbes have discovered how to survive
The liver plays an incredibly important role in the human body by metabolizing drugs and other compounds. Developing accurate in vitro liver models to study is a critical step in
INTRODUCING Allevi Rewards Points!! Every purchase you make on the Allevi3D shop will now redeem rewards points that can be used for a discount towards future purchases. The more you
When it comes down to it, a 3D bioprinter is really a powerful design tool – empowering scientists to combine biology with 3D geometry. In the years since we created
In their recent publication, Allevi authors, Abraham Samuel Finny, Cindy Jiang, and Silvana Andreescu developed a custom bioink which they can print into a skin safe UV sensor. Such a
Every bioprint starts with a 3D model, but how do you create a 3D file? There are many ways to do it, and don’t worry – you don’t have to
Every month, a research paper reporting a new bioink or modification of an existing one is published. All these new options provide increasingly more specialized materials for specific applications. However,
Philadelphia, PA – Allevi Inc., a leader in the field of 3D bioprinting, announces that Taciana Pereira has been named as its Chief Scientific Officer. Taci has been at Allevi
ALLEVI 3D ANNOUNCES THE APPOINTMENT OF FRANK J. McCANEY Philadelphia, PA – Today the Board of Directors of Allevi 3D Inc., a leader in the field of bioprinting, announced that
Hadi Rastin together with his colleagues from the University of Adelaide in Australia created a new electroconductive bioink that can be combined with cells and easily extruded with excellent results.
Allevi 3D bioprinted lung models will be used to study SARS-CoV-2 mechanisms of disease progression PHILADELPHIA — (June 25th, 2020) — The Wistar Institute, a biomedical research leader in cancer,
In their recent publication, Allevi authors Serkan Dikici, Fredrick Claeyssens, and Sheila MacNeil developed a very clever synthetic vascular network (SVN) by combining electro-spun layers with 3D bioprinted vascular channels.
