The way we study plant cells is expanding—literally—thanks to new research from Kevin Cox, an assistant professor of biology ...

The action movement of the microbubbles creates tiny pores in the cell membrane of the blood vessel wall which the drug ... "We were able to show that under ultrasound, the surface of the ...

The action movement of the microbubbles creates tiny pores in the cell membrane of the blood vessel wall which the drug ... “We were able to show that under ultrasound, the surface of the ...

The movement of the microbubbles creates tiny pores in the cell membrane of the blood vessel wall that the drug can ... "We were able to show that under ultrasound, the surface of the microbubbles ...

ETH Zurich researchers show how under ultrasound, microbubbles gas-filled bubbles ... The action movement of the microbubbles creates tiny pores in the cell membrane of the blood vessel wall which the ...

D printing of tubular biocomposites reveals moisture-sensitive actuators, offering insights into programmable materials for environmental responsiveness.

They’re named according to what the cells look like under a microscope. The main cause of ... the help of a needle inserted through the chest wall and into the tumor. This procedure is called ...

A Bengaluru startup in pursuit of the Holy Grail—printing an actual organ like a heart, liver, or kidney. Organ rejection ...