Understanding how living tissues function over time is essential for studying disease mechanisms, evaluating drug responses, and developing advanced ...

Microphysiological systems and organ-on-chip technologies are increasingly used to model human tissues outside the body, offering alternatives to animal experiments and traditional cell cultures.

The better approach is labor optimization: redesigning work so that each paid minute produces more validated outcomes—without ...

Fluorescent lights, the near-constant grinding of an industrial espresso machine, and chilly coffee shop temperatures … To ...

Scientists have discovered that people who can't stand the sound of chewing actually have differently wired brains that process everyday sensory experiences with an intensity that transforms their ...

Accurately isolating individual cells from complex biological samples is essential for modern biomedical research, yet existing sorting technologies ...

Brain microphysiological systems are reshaping in vitro neurotoxicity testing through functional validation and advanced ...

Have you ever wondered what catches a professional food critic's eye the moment they step through a restaurant's doors? It's ...

How physically magnifying objects using a key ingredient in diapers has opened an unprecedented view of the microbial world.

From TVs and smartwatches to rapidly emerging VR and AR devices, micro-LEDs are a next-generation display technology in which ...

Living organisms are made up of hundreds of thousands of cells that cooperate to create the organs and systems that breathe, eat, move, and think. Now, researchers from Japan have developed a new way ...

Imagine shining a flashlight into a material and watching the light bend backward—or in an entirely unexpected direction—as ...