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 In a study published in the journal Nature, the scientists said the
test, which can detect a toxic protein known as amyloid beta, linked
to Alzheimer's, was more than 90 percent accurate in research
involving around 370 people.
Dementia, of which Alzheimer’s is the most common form, affects
close to 50 million people worldwide and is expected to affect more
than 131 million by 2050, according to the non-profit campaign group
Alzheimer’s Disease International.
Currently, doctors use brain scans or invasive cerebrospinal fluid
testing, also known as a spinal tap, to try and see whether patients
have a build up of amyloid beta in the brain. But these tests are
invasive, expensive and may only show results when the disease has
already started to progress.
Despite decades of scientific research, there is no treatment that
can slow the progression of Alzheimer‘s. Current drugs can do no
more than ease some of the symptoms.
Having a simple, low-cost blood test could make it easier for
pharmaceutical companies to find enough people at risk of developing
Alzheimer's to test potential new drugs to fight the disease, said
Katsuhiko Yanagisawa, who co-led the Nature study at the Japanese
National Center for Geriatrics and Gerontology.
Since Alzheimer's disease is thought to start developing years
before patients have any symptoms of memory loss, experts say an
important factor in finding an effective treatment will be the
ability to accurately detect signs of the disease early.
"You have got to walk before you run. You have to learn to diagnose
the disease directly before you can hope to see the effect of
therapeutic intervention. And that's where the real value in this
test will come," said Colin Masters, a professor at the University
of Melbourne who co-led the research.
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The study involved 252 Australian and 121 Japanese patients aged
between 60 and 90 years.
Scientists not directly involved in the study said it made an
important step, but now needed to be replicated.
"If (it) can be repeated in a larger number of people, this test
will give us an insight into changes occurring in the brain that
relate to Alzheimer’s disease," said Mark Dallas, a lecturer in
Cellular and Molecular Neuroscience at Britain's University of
Reading.
Abdul Hye at King’s College London's Institute of Psychiatry,
Psychology & Neuroscience said the test was still a long way from
being able to be used in doctors' clinics.
"The approach of obtaining the results is still very complicated
(and) in its current form, the methodology is not practical in a
clinical setting," he said.
John Hardy, a professor of neuroscience at University College
London, said it was a "hopeful study which could have a very
positive impact on diagnostic accuracy."
(Reporting by Kate Kelland in London, Kiyoshi Takenaka in Tokyo and
Melanie Burton in Melbourne; Editing by Peter Graff; Editing by
Michael Perry and Peter Graff)
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