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An
eye specialist checks the eyes of an elderly patient in Juba
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In the developing world,
basic healthcare is often a challenge -- let alone expensive medical screening
or tests for easily treatable, preventable illnesses.
TEDGlobal,
an annual conference devoted to "ideas worth spreading" taking place
in Tanzania this week, heard of new technologies that could revolutionize healthcare for the poor.
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Algorithms to detect diseases -
Infectious
diseases are fast being overtaken by afflictions such as cancer as the biggest
health problem in Africa, where some countries have only one pathologist per
one million people.
Sierra
Leonean roboticist David Sengeh believes training more specialists is not
enough, and is working with his team at IBM Africa on artificial intelligence
(AI) algorithms that can predict a cancer's progression.
AI
software can be trained with a database of images to detect colour changes
inside the cervix that point to patients at high risk for cervical cancer,
which can be treated if caught in time, but which kills 60,000 women in Africa
a year.
Addressing
a similar problem, Pratik Shah of the Massachusetts Institute of Technology
(MIT) has developed a system to use simple cellphone or camera pictures --
instead of expensive MRI or CT scans -- to identify biomarkers that point to
oral cancer.
He
told AFP that while AI systems typically need tens of thousands of data points
to function, he has found a way to use only 50 images to train algorithms to
identify a specific disease.
"We
believe our approach could be used to massively reduce the amount of data an AI
algorithm currently consumes, and empower physicians to diagnose patients using
simple images," he said.
Both
Shah and Sengeh are new members of the TED Fellows Programme which aims to
spread the ideas of young innovators.
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'Eye-phones' and mobile hearing -
More
than 1.1 billion people worldwide live with hearing loss -- half of which is
preventable, according to the World Health Organization.
American
ear surgeon Susan Emmett said most of these are in low and middle-income
countries where traditional hearing tests are a challenge. Malawi, for example,
has only two ear surgeons and 11 audiologists.
Emmett
is currently testing South African-developed mobile screening technology in
rural Alaskan communities that has replaced the need for an audiologist,
permanent equipment and a soundproof room.
The
technology, costing 10 times less than traditional solutions, involves
noise-isolating headphones and an adaptor attached to a mobile phone used to
examine a patient's ears.
Another
speaker, Kyle DeCarlo, who is deaf, wishes the world would be more concerned
with giving the deaf access to language rather than sound. He has developed a
semi-transparent surgical mask so that deaf patients can read the lips of their
doctors in hospitals.
The
audience was also shown a video by eye surgeon Andrew Bastawrous who won a
Rolex Award in 2016 for Peek, an "eye-phone", or smartphone app he
developed for use in Kenya, which uses a low-cost clip-on device to take images
of the back of the eye to test sight.
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Drone blood delivery -
In
Rwanda, a system launched last year to fly blood via drones from a central
distribution centre to hospitals around the hilly nation has saved numerous
lives, said robotics entrepreneur Keller Rinaudo, whose company Zipline runs
the system.
The
drones, which drop boxed packs of blood slowly to the earth via a paper
parachute, now deliver 20 percent of blood supply outside the capital Kigali.
In
one case a 24-year old woman bleeding out after childbirth was saved after
several emergency flights in a row delivered more blood than is contained in
one human body -- which was all transfused into her.
Last week, Tanzania's health ministry announced they would use the same technology to deliver a variety of medical products from four distribution centres via drone in what is set to be the largest autonomous delivery system anywhere in the world.
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