"We have been able to show that we can actually label neurons in specific brain areas with probes bright enough to be detected by our customized photoacoustic microscope," Prevedel said.
Scientists have applied rational molecular engineering to develop photoacoustic probes that can be used deep within brain tissue to label and visualize neurons. This imaging approach expands ...
That aim is at the heart of a molecular engineering project, spearheaded by two research groups at the European Molecular Biology Laboratory (EMBL), that has resulted in a novel approach to create ...
The global photoacoustic imaging market size was valued at US$ 39.5 million in 2019. The global photoacoustic imaging market is forecast to reach a valuation of US$ 279.1 million by 2030 by growing at ...
Luxonus used its new device, a game-changing photoacoustic 3D scanner that deploys the relatively new science of photoacoustic imaging. “Our technology is based on the results of a five-year ...
"We have been able to show that we can actually label neurons in specific brain areas with probes bright enough to be detected by our customized photoacoustic microscope," Prevedel said.
The trick here is something called the photoacoustic effect. When certain materials absorb light — or any electromagnetic radiation — that is either pulsed or modulated in intensity ...