Now, hairbrush that reads your mind
October 20th, 2010 - 1:52 pm ICT by ANIWashington, Oct 20 (ANI): Who says hairbrush can only be used to comb locks? Scientists have made a hairbrush like device that would be able to monitor mental activity.
One of the main techniques for measuring and monitoring mental activity, called functional near infrared spectroscopy (fNIRS), can often be impaired because a person’s hair gets in the way.
But, now researchers at the University of Texas at Dallas and the University of Texas at Arlington, have developed a novel device called a brush optrode that is providing increased sensitivity with fiber tips designed to thread through hair to enhance scalp contact.
fNIRS is a noninvasive optical technique that measures oxygen levels in the brain to chart neurological activity.
The difference between oxygenated hemoglobin and deoxygenated hemoglobin can be used as a correlate of brain activity.
Using fNIRS, this difference in blood oxygen level is determined using a relative spectroscopic measurement at two near infrared wavelengths.
“Using light to measure a person’s thinking pattern has numerous advantages over EEGs, including ease of use, reliability, cost, portability and MRI compatibility,” said Duncan MacFarlane of the University of Texas at Dallas.
“The conventional fibers used in fNIRS systems terminate in a large, flat bundle, and it is easy for a patient’s hair to get in the way and block the signal.
“So we developed a new tip for the fNIRS fibers-a brush optrode that slides the fibers between the hair follicles. Signal levels increase 3- to 5-fold, and patients report that the brush optrode is considerably more comfortable than the conventional fiber ends. And the brush optrode is easier to set up, which saves time and money,” he said.
This research is expected to open the door to portable, easy-to-use, high-density optical scanning of brain activity.
The details of the device would be presented at the Optical Society’s (OSA) annual meeting, Frontiers in Optics (FiO) 2010. (ANI)
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Tags: blood oxygen level, brain activity, conventional fiber, conventional fibers, duncan macfarlane, fiber ends, fiber tips, functional near infrared spectroscopy, high density, infrared wavelengths, mri compatibility, neurological activity, novel device, optical scanning, optical technique, oxygen levels, signal levels, spectroscopic measurement, university of texas at arlington, university of texas at dallas