3D tissue engineering is advancing rapidly, enabling researchers to mimic the complexity of in vivo conditions with 3D in vitro assays. According to Jonathan Garlick, D.D.S, Ph.D., a professor of oral ...

Engineers at the University of Pittsburgh are working to develop 3D-printed organic tissue models that mimic the behavior of living organs. Online cover of Science Advances, April issue. A ...

Differences between animal models and human tissues have contributed to approximately one dozen failures of late-stage drugs in 2012 alone. Organovo is remedying the situation with an innovative ...

A recent study published in Science Advances introduces a new approach to three-dimensional (3D) printing that integrates cells and extracellular matrix (ECM) into biologically functional scaffolds.

The Advanced Cell Engineering and 3D Models (ACE-3M) Core provides established services offered previously by AIM and C-BASS cores plus new expanded capabilities for tumor organoids grown in 3D ...

Researchers explore how human tissue models can be used to examine the impact of heart attacks and treatment of the fibrotic tissue outside the body, improving treatment and diagnosis. They use ...

UBC Okanagan researchers have developed a 3D bio-printed model that closely mimics the complexity of natural lung tissue, an innovation that could transform how scientists study lung disease and ...

A new tool aligns spatial genomic and histology data from tissue samples virtually, creating a 3D atlas from 2D slices. Using 2D tissue slices to decipher features of a 3D tissue is computationally ...

Engineers at the University of Pittsburgh are working to develop 3D-printed organic tissue models that mimic the behavior of living organs. The core concept behind their discovery is simple yet ...