Butterfly Network (NYSE:BFLY) today shared the launch of Aleph Neuro, a non-invasive brain imaging company utilizing ...
A new, biodegradable ultrasound far more powerful than previous devices could make brain cancers more treatable, University of Connecticut researchers report in the June 14 issue of Science Advances.
The skull is so effective at protecting the brain that it has impeded the progress of neuroscience. In particular: A nice, thick skull poses challenges for imaging the brain in natural environments or ...
An ultrasound device that can precisely stimulate areas deep in the brain without surgery has been developed by researchers from UCL and the University of Oxford, opening up new possibilities for ...
Butterfly Network BFLY recently highlighted a breakthrough of its Butterfly Embedded partner, Aleph Neuro, which unveiled ...
The first in-human trial to use a novel ultrasound device to temporarily open the blood-brain barrier to deliver chemotherapy reveals that the procedure led to an increase in drug concentrations in ...
In the first in-human clinical trial, scientists used a novel, skull-implantable ultrasound device to open the blood-brain barrier and repeatedly permeate large, critical regions of the human brain to ...
See more of our trusted coverage when you search. Prefer Newsweek on Google to see more of our trusted coverage when you search. Scientists have found a way to achieve higher levels of concentration ...
The results, published in the Journal of Controlled Release, showed that the ultrasound-sensitive nanoparticles released a substantial dose of the anesthetic propofol in specific deep brain regions.
A new study provides the first visual evidence showing that brain circuits in living animals can be activated by ultrasound waves projected into specific patterns (holograms). Led by scientists at NYU ...
Patients who received a focused ultrasound treatment to aid drug delivery increased their odds of surviving the deadliest form of brain cancer by nearly 40%, according to a study led by University of ...