An international team of scientists and clinicians has announced the launch of a new open-access 3D portal that allows users to explore intact human organs in unprecedented detail—from the whole organ ...

Traditional animal models and simplified cell cultures often fail to capture human biology, limiting progress in biomedical research and drug development. Emerging microfluidic "Organ-on-Chip" ...

A frequently reported fact in the drug discovery and development industry is that approximately 90 % of drug candidates reaching clinical trials fail, with even higher amounts discarded before ...

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In 2021, as the COVID-19 pandemic rampaged across the world, researchers sought to understand how SARS-CoV-2 infection triggered structural damage in lungs. Since there was no imaging platform to map ...

Stanford bioengineer Mark Skylar-Scott writes about what he’s working on, how it could advance human health and well-being, and why universities are critical players in the nation’s innovation ...

In the world of medical advancements, 3D-printed organs have made a significant stride. Latest trials have demonstrated that these bioengineered organs can maintain their function for up to six months ...

Understand how 3D bioprinting transforms medicine through organ printing, advanced bioinks, and vascular networks, paving the way for personalized tissue and organ regeneration. Pixabay, LPArt The ...

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 ...