AI tools discovered five types of heart failure
Five types of heart failure that can be used potentially to predict future risk for individual patients have been identified using artificial intelligence (AI) tools, according to a new study, led by UCL researchers. Read further on Dynamite News:
Washington: Five types of heart failure that can be used potentially to predict future risk for individual patients have been identified using artificial intelligence (AI) tools, according to a new study, led by UCL researchers.
Lead author Professor Amitava Banerjee (UCL Institute of Health Informatics) said, "We sought to improve how we classify heart failure, with the aim of better understanding the likely course of disease and communicating this to patients. Currently, how the disease progresses is hard to predict for individual patients. Some people will be stable for many years, while others get worse quickly."
When the heart is unable to efficiently pump blood around the body, this is referred to as heart failure. Current classification systems for heart failure do not reliably anticipate how the condition will progress. "Better distinctions between types of heart failure may also lead to more targeted treatments and may help us to think in a different way about potential therapies.
"In this new study, we identified five robust subtypes using multiple machine learning methods and multiple datasets," said Banerjee. Researchers examined detailed anonymised patient data from more than 300,000 adults aged 30 or older who were diagnosed with heart failure in the UK during a 20-year period for the study, which was published in Lancet Digital Health.
"The next step is to see if this way of classifying heart failure can make a practical difference to patients - whether it improves predictions of risk and the quality of information clinicians provide, and whether it changes patients' treatment. We also need to know if it would be cost-effective. The app we have designed needs to be evaluated in a clinical trial or further research, but could help in routine care," added Banerjee.
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The researchers identified five subtypes using several machine learning methods: early onset, late onset, atrial fibrillation related (an irregular heart rhythm caused by atrial fibrillation), metabolic (linked to obesity but with a low rate of cardiovascular disease), and cardiometabolic (linked to obesity and cardiovascular disease).
They found differences between the subtypes in patients' risk of dying in the year after diagnosis.
The all-cause mortality risks at one year were: early onset (20 per cent), late-onset (46 per cent), atrial fibrillation related (61 per cent), metabolic (11 per cent), and cardiometabolic (37 per cent).
The research team also developed an app that clinicians could potentially use to determine which subtype a person with heart failure has, which may potentially improve predictions of future risk and inform discussions with patients.
To avoid bias from a single machine learning method, the researchers used four separate methods to group cases of heart failure. They applied these methods to data from two large UK primary care datasets, which were representative of the UK population as a whole and were also linked to hospital admissions and death records.
The datasets were Clinical Practice Research Datalink (CPRD) and The Health Improvement Network (THIN), covering the years 1998 to 2018.)
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The research team trained the machine learning tools on segments of the data and, once they had selected the most robust subtypes, they validated these groupings using a separate dataset.
The subtypes were established on the basis of 87 (of a possible 635) factors including age, symptoms, the presence of other conditions, the medications the patient was taking, and the results of tests (e.g., of blood pressure) and assessments (e.g., of kidney function).
The team also looked at genetic data from 9,573 individuals with heart failure from the UK Biobank study. They found a link between particular subtypes of heart failure and higher polygenic risk scores (scores of overall risk due to genes as a whole) for conditions such as hypertension and atrial fibrillation. (ANI)