Researchers Develop World's Smallest
Wearable Device
Tiny wearable electronic device monitors UV exposure
Designed to stick on
a thumbnail, UV Sense continuously measures UV exposure.
A Northwestern
Engineering professor, working in conjunction with the global beauty
company L’Oréal, has developed the smallest wearable device in the world. The
wafer-thin, feather-light sensor can fit on a fingernail and precisely measures
a person’s exposure to UV light from the sun.
The device, as light as a
raindrop and smaller in circumference than an M&M, is powered by the sun
and contains the world’s most sophisticated and accurate UV dosimeter. It was
unveiled Sunday, Jan. 7, at the 2018 Consumer Electronics Show in Las Vegas and
will be called UV Sense.
“We think it provides the
most convenient, most accurate way for people to measure sun exposure in a
quantitative manner,” said John A. Rogers, the Louis Simpson and Kimberly Querrey Professor of
Materials Science and Engineering, Biomedical Engineering, and Neurological
Surgery in Northwestern's McCormick School of Engineering. “The broader goal is
to provide a technology platform that can save lives and reduce skin cancers by
allowing individuals, on a personalized level, to modulate their exposure to
the sun.”
UV Sense has no moving parts, no battery, is waterproof and
can be attached to almost any part of the body or clothing, where it
continuously measures UV exposure in a unique accumulation mode.
Rogers said the device,
created in a partnership with L’Oréal, is meant to stick on a thumbnail
— a stable, rigid surface that ensures robust device adherence. It’s also
an optimal location to measure exposure to the sun.
“It is orders of
magnitude smaller than anything else out there,” Rogers said. “It also is one
of the few sensors that directly measures the most harmful UV rays. Further, it
simultaneously records body temperature, which is also very important in the
context of sun exposure.”
Users need only to
download an app on their smartphone, then swipe the phone over the device to
see their exposure to the sun, either for that day or over time. The app can
suggest other, less UV-intense times for outdoor activities or give peace of
mind to individuals who are concerned about overexposure.
“UV Sense is
transformative technology that permits people to receive real-time advice via
mobile phone messages when they exceed their daily safe sun limit,” said June
K. Robinson, M.D., research professor of dermatology at Feinberg School of
Medicine.
Roger’s research group at
Northwestern, in collaboration with Robinson and researchers at Feinberg, have
received a roughly $2 million grant from the National Institutes of Health to
deploy the fingernail UV sensors in human clinical studies of sun exposure in
cohorts of subjects who are at risk for melanoma. The first pre-pilot field
trials launched in December.
“Sunlight is the most
potent known carcinogen,” Rogers said. “It’s responsible for more cancers than
any other carcinogen known to man, and it’s everywhere — even in Chicago.”
On average, half the US
population experiences a sunburn once a year or more, he said, and there are
more than a million melanoma survivors in the US alone.
Guive Balooch, Global
Vice President of L’Oréal’s Technology Incubator, said the company’s research
shows that overexposure to UV rays is a top health and beauty concern of
consumers worldwide.
“With this knowledge, we
set out to create something that blends problem-solving technology with
human-centered design to reach even more consumers who require additional
information about their UV exposure,” Balooch said. “Whenever we develop a new
technology, our goal is to make an enormous global impact by enhancing
consumers’ lives.”
Rogers said the aesthetic
design features of UV Sense are also important because they
can help break down barriers to adoption. The device can be produced in any
color with any pattern, logo or branding.
“What also excites me is that there’s novelty
at the level of the academic science,” Rogers said. “The resulting technology
has strong potential for positive impact on human health.”
JON
YATES
http://www.mccormick.northwestern.edu/news/articles/2018/01/researchers-develop-worlds-smallest-wearable-device.html?utm_source=alumni-newsletter-02-01-18&utm_medium=email&utm_campaign=alumni-newsletter&utm_content=email-position1
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