New
research that appears in the journal PLOS ONE suggests that machine learning can be a valuable
tool for predicting the risk of premature death. The scientists compared the
accuracy of artificial intelligence prediction with that of statistical methods
that experts are currently using in medical research.
New research suggests that
healthcare professionals should use deep learning algorithms to predict
premature death risk accurately.
An
increasing amount of recent research is suggesting that computer algorithms and
artificial intelligence (AI) learning can prove highly useful in the medical
world.
For
instance, a study that appeared a few months ago found that deep learning
algorithms can accurately predict the onset of Alzheimer's disease as
early as 6 years in
advance.
Using
a so-called "training dataset," deep learning algorithms can
"teach themselves" to predict if and when an event is likely to
occur.
Now,
researchers have set out to examine whether machine learning can accurately
predict premature mortality due to chronic disease.
Stephen
Weng, who is an assistant professor of epidemiology and data science at the
University of Nottingham in the United Kingdom, led the new research.
How AI could help preventative care
Weng
and colleagues examined health data on more than half a million people between
the ages of 40 and 69 years. The participants had registered with the UK
Biobank study between 2006 and 2010. The UK Biobank study researchers
clinically followed the participants until 2016.
For
the current study, Weng and team developed a system of learning algorithms
using two models called "random forest" and "deep
learning." They used the models to predict the risk of premature death due
to chronic disease.
The
scientists examined the predictive accuracy of these models and compared them
with conventional prediction models, such as "Cox regression" analysis and a multivariate Cox model.
Deep learning
algorithms may be able to predict a diagnosis of Alzheimer's disease years in
advance.
"We
mapped the resulting predictions to mortality data from the cohort using Office
of National Statistics death records, the U.K. cancer registry, and 'hospital episodes'
statistics," explains the study's lead investigator.
The
study found that the Cox regression model was the least accurate at predicting
premature death, while the multivariate Cox model was slightly better but was
likely to overpredict death risk.
Overall,
"machine learning algorithms were significantly more accurate in
predicting death than the standard prediction models developed by a human
expert," reports Weng. The researcher also comments on the clinical
significance of the findings.
He says, "Preventative healthcare is a growing
priority in the fight against serious diseases, so we have been working for a
number of years to improve the accuracy of computerized health risk assessment
in the general population."
"Most
applications focus on a single disease area, but predicting death due to
several different disease outcomes is highly complex, especially given
environmental and individual factors that may affect them."
"We have taken a major step forward in this field by
developing a unique and holistic approach to predicting a person's risk of
premature death by machine learning."
Stephen Weng
"This
uses computers to build new risk prediction models that take into account a
wide range of demographic, biometric, clinical, and lifestyle factors for each
individual assessed, even their dietary consumption of fruit, vegetables, and
meat per day," explains Weng.
Furthermore,
say the researchers, the results of the new study strengthen previous findings,
which showed that certain AI algorithms are better at predicting heart disease risk
than the conventional prediction models that cardiologists currently use.
"There
is currently intense interest in the potential to use 'AI' or 'machine
learning' to better predict health outcomes. In some situations, we may find it
helps, in others it may not. In this particular case, we have shown that with
careful tuning, these algorithms can usefully improve prediction," says
Prof. Joe Kai, a clinical academic who also worked on the study.
He
continues, "These techniques can be new to many in health research and
difficult to follow. We believe that by clearly reporting these methods in a
transparent way, this could help with scientific verification and future
development of this exciting field for healthcare."
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