Bioimaging

A new diagnostic innovation powered by artificial intelligence could empower surgeons to make more accurate and effective clinical decisions for colon cancer patients.

Non-invasive imaging technology reveals how radiation exposure in the brain, particularly early in life, damages delicate brain tissue.

Scientists develop a technique for performing advanced infrared microscopy using off-the-shelf cameras built for visible light.

A*STAR researchers have developed a new molecular imaging technique that enables the study of tissue physiology at ultra-high resolution.

A novel method for designing fluorescent probes improves imaging of complex molecules in live cells

The pursuit of microscopic drugs that can be tracked as they fight cancer is a step closer

Coupling
of photoacoustic and magnetic resonance imaging gives clear images of blood flow
and oxygenation status in brain tumor tissue

Newly detected ‘energy-clustering’ structures inside rare-earth nanoparticles generate intense violet light, which is ideal for studying photon-induced transformations

Nanoparticles with a core–shell structure can minimize the overheating of cells during bioimaging experiments

A microelectromechanical system developed in Singapore provides the 360-degree view that is critical in diagnostic imaging