MIT researchers are using living cells to target diseased brain areas and deliver tiny electronic devices that can modulate ...

Engineers have found a way to shepherd microrobots with no wires, no radios, and no onboard computers. Instead, they steer them with light patterns designed using the same math physicists use to ...

Scientists have uncovered new details about the mechanism behind cancer progression. Researchers explored the influence the mechanical stiffening of the tumor cell's environment may have on the ...

Creating mini mitochondria factories helped recharge damaged cells in a dish, providing proof-of-concept work that could pave ...

Cell-sized robots can sense temperature, make decisions, and move autonomously using nanowatts of power—no external control ...

The polarized diSPIM microscope, which can image full 3D orientation and position of molecules in cells. The instrument was constructed in the Hari Shroff lab at the National Institute of Biomedical ...

Researchers at the University of Nottingham have created an endoscopic device that can 3D image the stiffness of individual biological cells and complex organisms, a discovery that could help doctors ...

In 2022 alone, over 20 million people were diagnosed with cancer, and nearly 10 million died from the disease, according to ...

Cells may generate their own electrical signals through microscopic membrane motions. Researchers show that active molecular ...

It is 7 am, the alarm clock rings—you open your eyes, swing your legs out of bed, give a talk at work, play a tennis match in the evening. Billions of nerve cells that make up the gray matter in our ...

In 2022 alone, over 20 million people were diagnosed with cancer, and nearly 10 million died from the disease, according to the World Health Organization. While the reaches of cancer are massive, the ...