Researchers have installed a high-resolution 3D spatial multi-omics system to study RNA regulation in intact brain tissue, ...

Stellaromics today launched Pyxa™, the first commercially available platform to deliver multiplexed 3D spatial transcriptomics in intact tissue up to 100 micrometers thick. The launch marks a ...

Certain cells in the brain create a nurturing environment, enhancing the health and resilience of their neighbors, while others promote stress and damage. Using spatial transcriptomics and AI, ...

This figure shows how the STAIG framework can successfully identify spatial domains by integrating image processing and contrastive learning to analyze spatial transcriptomics data effectively.

A new spatial transcriptomic technology captures RNA patterns without requiring expensive imaging ...

Dr. Xuyu Qian in his current laboratory, standing beside a collection of external hard drives containing raw spatial transcriptomics data from his groundbreaking human brain development research. The ...

Researchers at the Max Delbrück Center have developed an open-source spatial transcriptomics (ST) platform, called Open-ST, that creates 3D molecular maps from patient tissue samples with subcellular ...

Advances in 3D spatial multiomics are changing how researchers study tissue architecture. We spoke with Stellaromics' CEO, Dr. Todd Dickinson, to learn how this approach preserves structure and ...