Spatial Biology

Spatial biology integrates molecular profiling with tissue architecture to understand cellular interactions in their anatomical context. It utilizes techniques like spatial transcriptomics and imaging mass cytometry to map biomolecules within tissues.

Cameras for spatial biology require high sensitivity, resolution, and dynamic range to capture detailed spatial information without compromising molecular integrity. These cameras must handle diverse sample types and support multiplexed imaging modalities to visualize multiple biomarkers simultaneously. Advanced features like large field of view and rapid acquisition speeds are crucial for comprehensive spatial mapping, enabling researchers to unravel complex biological processes and disease mechanisms within their spatial contexts efficiently.