We think we know robots, from the old school Robbie the Robot to the beloved R2-D2/C-3PO to the acrobatic Boston Dynamics robots or the very human-like Westworld ones. But you have to love those scientists: they keep coming up with new versions, ones that shatter our preconceptions. Two in particular caught my attention, in part because both expect to have health care applications, and in part because of how they’re described.
Hint: the marketing people are going to have some work
to do on the names.
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| Yep, that's a robot. Credit: Syun, et. alia |
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Let’s start with the robot called by
its creators – a team at The Chinese University of Hong Kong -- a “magnetic
slime robot,” which some in the press have referred to as a “magnetic turd
robot” (see what I mean about the names?).
It has what are called “visco-elastic properties,” which co-creator Professor
Li Zhang explained
means “sometimes it behaves like a solid, sometimes it behaves like a liquid…When
you touch it very quickly it behaves like a solid. When you touch it gently and
slowly it behaves like a liquid”
The slime is made from a polymer called polyvinyl
alcohol, borax, and particles of neodymium magnet. The magnetic particles allow
it to be controlled by other magnets, but also are toxic, so researchers added
a protective layer of silica, which would, in theory, allow it to be ingested
(although Professor Zhang warned: “The safety [would] also strongly depend on
how long you would keep them inside of your body.”).
The big advantage of the slime is that it can easily
deform and travel through very tight spaces.
The researchers believe it is capable of “grasping solid objects,
swallowing and transporting harmful things, human motion monitoring, and
circuit switching and repair.” It even
has self-healing properties.
Watch it in action:
In the video, among other tasks, the slime surrounds a
small battery; researchers see using the slime to assist when someone swallows
one. “To avoid toxic electrolytes
leak[ing] out, we can maybe use this kind of slime robot to do an encapsulation,
to form some kind of inert coating,” Professor Zhang said.
As fate would have it, the news of the discovery hit the
on April 1st, leading some to think it was an April Fool’s joke,
which the researchers insist
it is not. Others have compared the
magnetic slime to Flubber
or Venom,
but we’ll have to hope we make better use of it.
It is not yet autonomous, so some would argue it is
not actually a robot, but Professor Zhang insists, “The ultimate goal is to
deploy it like a robot.”
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If magnetic slime/turd robots don’t do it for you, how
about a “magnetic tenacle robot” – which some
have deemed a “snakelike” robot)? This
one comes from researchers at the STORM
Lab at the University of Leeds. STORM
Lab mission is:
We strive to enable earlier diagnosis, wider
screening and more effective treatment for life-threatening diseases such as
cancer…We do so by creating
affordable and intelligent robotic solutions that can improve the quality of
life for people undergoing flexible endoscopy and laparoscopic surgery in
settings with limited access to healthcare infrastructures.
In this particular case, rather than using traditional
bronchoscopes, which might have a diameter of 3.5 – 4 millimeters and which are
guided by physicians, the magnetic tenacle robot offers a smaller, more
flexible, and autonomous option. Professor Pietro Valdastri, the STORM Lab
Director, explained:
A magnetic tentacle robot or catheter that measures 2 millimetres and
whose shape can be magnetically controlled to conform to the bronchial tree
anatomy can reach most areas of the lung, and would be an important clinical
tool in the investigation and treatment of possible lung cancer and other lung
diseases.
Moreover, “Our
system uses an autonomous magnetic guidance system which does away for the need
for patients to be X-rayed while the procedure is carried out.” A
patient-specific route, based on pre-operative scans, would be programmed into
the robotic system. It could then
inspect suspicious lesions or even deliver drugs.
Dr. Cecillia Pompili, a
thoracic surgeon who was a member of them team, says: “This new technology will
allow to diagnose and treat lung cancer more reliably and safely, guiding the
instruments at the periphery of the lungs without the use of additional X-rays.”
Watch it in action:
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