Scientists have digitally preserved the world’s most endangered marine mammal by creating highly detailed 3D models of a ...

Many spatial biology researchers rely on two-dimensional tools, which section the cellular architecture and processes occurring within 3D tissues into flat layers. Three-dimensional multiomic analysis ...

The vaquita (Phocoena sinus), an elusive porpoise found only in the shallow waters of Mexico's northern Gulf of California, ...

Discover how 3D biology, automation, and AI are revolutionizing drug discovery, improving predictive accuracy, and accelerating research. Can you introduce yourself and tell us about your role at ...

Assembloids: A Versatile Platform for Human Tissue Modeling. This schematic illustrates the classification of assembloids based on four key assembly strategies—multi-region, multi-lineage, ...

Descriptions of the embryo go back at least to the time of Aristotle, but it has only been since the late 19 th century and early 20 th century that advances in experimental approaches allowed ...

3D cell cultures are no longer a futuristic idea. They’re already reshaping how we study diseases like cancer, offering more realistic models of how cells behave in the body. But despite their ...

Come learn how AI-powered segmentation, spatial analysis, and phenotyping can help you gain new insights for 3D images with complex morphological features and multiple biomarkers. With Aivia you can ...

Researchers have developed a high-tech system that rapidly scans ants and converts them into detailed 3D models. Using a synchrotron accelerator, X-ray imaging, robotics, and AI, the team scanned ...