To understand the brain better, we need new methods to observe its activity. That is at the heart of a molecular engineering project, spearheaded by two research groups at the European Molecular ...

Neuroscientists have sought to better understand brain function but lacked the capability to observe neuronal activity deep within the brain. Scientists have applied rational molecular engineering ...

New photoacoustic probes enable deep brain tissue imaging, with the potential to report on neuronal activity and enable better understanding of brain function Peer-Reviewed Publication European ...

Researchers have made progress against ‘the skull challenge,’ getting through barriers that prohibit ultrasound from imaging ...

Scientists at Duke University have developed an ultrafast photoacoustic imaging system capable of capturing the functional and molecular changes that occur in major brain disorders.

A breast scan for detecting cancer takes less than a minute using an experimental system that combines photoacoustic and ...

A new photoacoustic tomography scanner can image vasculature, which could help with the diagnosis of diabetes and cancer.

Photoacoustic imaging, or optoacoustic imaging, is a technique that uses light interacting with tissue to produce high-resolution, anatomical, molecular, and functional images with impressive depth.

BU neuroscientist and collaborators have developed a multidisciplinary approach using a new microscope, artificial intelligence algorithm, and voltage indicators to better measure brain activity.

Research & Development EMBL develops photoacoustic probes that enable deep brain tissue imaging 28 Aug 2024 To capture neuronal activity and enable better understanding of brain function. New ...

To understand the brain better, new methods are required to observe its activity. That aim is at the heart of a molecular engineering project, spearheaded by two research groups at the European ...