For roughly 400 years, microscopes have allowed us to observe increasingly smaller details. Today's most advanced instruments can peer deep into living cells, helping researchers study diseases such ...

Dr. James Lim, associate professor of pediatrics at UBC’s faculty of medicine, observes pediatric cancer cells grown in a chicken egg under a microscope. Disclaimer: AAAS and EurekAlert! are not ...

New NE-AFM method measures nuclear stiffness in living cells. It shows cancer nuclei change softness with chromatin and environment, aiding diagnosis and treatment. By employing a technique called ...

Scientists at New York University have found that cancer cells work together to source nutrients from their environment—a cooperative process that was previously overlooked by researchers. The team’s ...

The first-place winner of the 2025 Nikon Small World in Motion Video Competition captures a self-pollinating flower. Jay McClellan via Nikon Small World in Motion Video Competition Nikon has revealed ...

“Our goal is really to get out all the cancer,” says Dr. Arvind Bakhru. In the operating room, the gynecologic oncologist relies on sight and feel to help identify the cancerous lesions he’ll remove.

Researchers at the Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, report in ACS Applied Nano Materials a new method to precisely measure nuclear elasticity—the stiffness or softness ...

(a) A scanning electron microscope (SEM) image of the nanoneedle probe used for the measurements. (b) Elasticity map of a 1 µm × 1 µm area on the nuclear surface, showing the change in elasticity ...