New_Scientist_3_08_2019

(Darren Dugan) #1
12 | New Scientist | 3 August 2019

IS THE placenta home to
communities of bacteria? Recent
evidence that the organ has its
own microbiome promised
to rewrite our understanding
of it, but now research suggests
that the earlier experiments may
have been contaminated.
Although the gut is known to
host a rich, diverse community
of bacteria, as well as viruses
and fungi, the fetus and
placenta had long been
assumed to be sterile.
That picture started to change
seven years ago, when evidence
emerged that babies are born
with a gut microbiome, which
seems to start taking shape
before birth. Then in 2014,
a team led by Kjersti Aagaard
at Baylor College of Medicine
in Texas found low levels of
bacteria in the placenta.
Julian Parkhill at the Wellcome
Sanger Institute in Cambridge,
UK, and his colleagues wanted
to find out if the make-up
of the placenta’s microbiome
might influence the outcome
of a pregnancy. But as their
research progressed, they came
to a different conclusion: that
the placenta doesn’t seem to

have a microbiome after all.
Parkhill and his team
performed tests on samples
of placenta taken from 578
women. In one experiment, they
found that the same strain of the
Escherichia coli bacterium was
present in all of the placenta
samples (Nature, DOI: 10.1038/
s41586-019-1451-5).
“That’s impossible from a
cohort of hundreds of pregnant
women,” he says. The bacteria
must have come from the
experiment kit, he says.
What Parkhill sees as
contamination, Aagaard views
as evidence of a microbiome.
While the microbiome of the
placenta might not be as rich
and diverse as that of the gut,
she says, it could still play an
important role in birth outcomes
and a baby’s metabolic and
brain development.
The debate continues.
“Believe you me, I am as
exhausted by the seemingly
endless back and forth as
anyone is,” says Aagaard. ❚

A COMPUTER chip inspired
by the brain could pave the way
for artificial intelligence with
a broader range of abilities.
The chip has been used to control
an autonomous bicycle, but one
day it might power self-driving
cars and smart robots.
Shi Luping at Tsinghua
University in China and his
colleagues made the chip with
hardware based on the structure
of the human brain that can run
two types of algorithm.
To date, most approaches to
developing AIs fall into two camps.
The first, and more common, type
of algorithm is artificial neural
networks, which are simplistic
models of neurons designed for
specific computer processing
tasks such as recognising objects.

Then there are biologically
inspired circuits, known as
spiking neural networks, which
are rarer. These aim to more
closely replicate the human brain,
with its billions of neurons that
communicate via electric pulses.
Whereas neurons in artificial
neural networks can “fire” at
different intensities, neurons
in spiking neural networks are
either on or off.
Shi’s chip is built to deal with
the operations required by both
algorithms, so it is potentially
more efficient.
His team has shown how the
hybrid chip could be used in an
autonomous bicycle. The bike
combines several different
algorithms for different tasks,
allowing it to respond to voice
commands, to self-balance,
avoid obstacles, and detect
and follow a person.

Brain-inspired chip


could transform AI


Machine learning Pregnancy

Donna Lu Jessica Hamzelou

STEVE ALLEN PHOTO/GETTY

News


Its processor, known as the
Tianjic chip, combined five
different neural networks,
including a spiking neural
network that recognises voice
commands such as “straight”
and “speed up” (Nature, DOI:
10.1038/s41586-019-1424-8).
The algorithms were all trained
before being loaded onto the chip,
where they were run in parallel in
the bicycle. Shi says the computer
chip could be used for other
applications including intelligent
robots and self-driving cars.
Alessandro Oltramari at
engineering firm Bosch says
the hybrid chip may be suitable
for a variety of tasks. “You really
need to have an architecture that
is complex enough, that can deal
with different problems using
different mechanisms,” he says.
But more general AIs are still
some way off, he adds. Although
the Tianjic chip was effective for
autonomous navigation in a
bicycle, to prove its general ability,
it would need to succeed at a range
of totally different tasks, such as
manipulating objects, playing
games or holding a conversation.
Oltramari says the chip
overlooks a third approach that
may be required for artificial
general intelligence: cognitive-
inspired neural architectures.

Instead of trying to replicate the
anatomical structures of the brain,
this aims to mimic the cognitive
abilities of the human mind,
such as its ability to pay attention,
remember and make predictions. ❚

The placenta
supplies food and
oxygen to a fetus

“One day, this flexible
computer chip might
power self-driving cars
and smart robots”


Debate reignited


over the placenta’s
microbiome

PEI ET AL., NATURE.

A new
computer
chip has been
used to control
a self-riding
bicycle
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