Finding a simple way to boost hair
regrowth remains a challenge for researchers. A new paper claims that micro
LEDs might be the answer we have been looking for.
New technology may pave the way to
hair regrowth solutions.
Hair loss affects
millions of people, globally. For some, it is of little concern, but for
others, it can impact both self-esteem and confidence.
For these people, finding a way to
regrow hair as quickly as possible is important.
The causes of hair loss are very
varied; they can include genetic factors, long-term stress, aging, and higher
levels of male hormones.
Despite years of dedicated research,
boosting hair growth is still hit and miss, expensive, painful, or all of the
above.
The current options include a drug
called minoxidil (a vasodilator), corticosteroid injections, and hair transplant
surgery.
Away from the pitfalls of drugs and
surgery, some researchers are turning to the potential use of light. A new
study investigates the possibility of a wearable, light-based solution to hair
loss.
A new approach
Earlier studies have revealed that
lasers can help regrow
hair by stimulating hair follicles, leading to increased cell
differentiation. Red light is particularly successful because its wavelength
penetrates skin better than the shorter wavelengths of green and blue light.
It may be promising and without
apparent side effects, but the equipment necessary for laser hair treatment is
large, expensive to power, and difficult to use; this makes it impractical for
home use and therefore limits its availability.
A paper — published recently in the
journal ACS Nano — describes
a flexible, wearable device based on micro-light-emitting diodes (micro LEDs).
This technology is currently being
tested for a range of applications thanks to its durability, flexibility, and
conveniently small size.
However, there are still some
shortfalls to micro LEDs; according to the investigators, these include
"high heat radiation, low optical efficiency, and high energy
consumption." To avoid these problems, the team used an ultra-thin array
of flexible vertical micro LEDs.
This marks
the first time that such a device has been tested on a living animal. The micro
LEDs — 900 in all — were placed on a chip around the size of a postage stamp,
just 20 millimeters thick.
Compared with standard laser
treatment, the new design used 1,000 times less power per square millimeter.
Importantly for use on animals, the patch does not generate substantial heat,
so there would be no risk of burning the skin.
When the scientists stress-tested
the patch by flexing it 10,000 times, it was robust enough to remain intact.
This is essential for anything that is to be worn on human skin.
Hair
regrowth
Aside from its impressive practical
performance, safety, and energy efficiency, the most important question was
whether it could regrow hair as predicted.
The scientists tested its ability to
regrow hair on the shaved backs of mice by comparing regrowth promoted by the
micro LED patch against mice who received no treatment and mice who were given
minoxidil injections.
As hoped,
the rodents that were given micro LED patch treatment for 15 minutes per day
for 20 days saw the greatest results. Hair grew faster and longer, and the area
of regrowth was wider.
Although human testing will be the
true marker of success, this is an intriguing step forward. The group has
proven that a small, durable, flexible patch may be worn for just short periods
of time each day to enhance hair regrowth.
In the future, the authors believe
that this technology might have other applications; these might include wound
healing, acne care, and skin
lightening.
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