We have found ways to manipulate or explore people’s brains, from using a mini 3D camera for surgery to inserting a chip that allows people to control a computer with their thoughts, we are still a long way away from unlocking every secret that the brain contains.
Researchers from the University of Washington have created a way to see inside the brain. Above all, it’s a way without making an incision or removing a part of the skull. Which will allow us to better understand how some brain diseases work.
First of all, The new tool uses non-invasive, light-based imaging technology. Therefore, it’s good for detecting diseases like Alzheimer’s, dementia, and brain tumors. The Journal of Biomedical Optics was completed by the University of Washington. Two people by the name of Woo June Choi and Ruikang Wang. Keeping your brain healthy is step number one though.
Now, “The paper shows significantly enhanced imaging depth using a noninvasive laser-enabled technique for deep tissue imaging. In the brain, the imaging depth is almost doubled,” said journal editorial board member Martin Leahy, of the National University of Ireland, Galway, in a press release. The authors demonstrate an application. It had a window into the live intact hippocampus for discovery in brain research.
The researchers used a new experimental approach called optical coherence tomography (OCT)
Most noteworthy, this is to obtain subsurface images of biological tissue. It has the same resolution as a low-power microscope. With OCT, researchers will be able to examine different acute and chronic vascular changes in the deep brain. Meanwhile, using a swept-source OCT to scan deeper and faster. A vertical-cavity surface-emitting laser (VCSEL) for a more efficient scan. The researchers were able to get better cross-section images of layers of tissue without invasive surgery or ionizing radiation. Most Importantly, this allowed them to monitor changes in the brains of mice as Alzheimer’s and dementia developed. In addition, they were even able to study how the brain aged.
In addition, the OCT cameras have been used for 20 years Therefore, their images become blurry and unusable after a depth of 1 millimeter. After that, OCT imaging is used to study the neural activity, structure, and blood flow in the cerebral cortex of mice. This latest development will allow scientists to image deeper tissues like the hippocampus, further unlocking the secrets of the brain.