Artificial intelligence (AI) can diagnose Alzheimer's disease faster and improve prognosis, a new study has revealed. Alzheimer's disease is a neurological disorder in which the death of brain cells causes memory loss and cognitive decline.
Scientists at the UK's University of Sheffield's Neuroscience Institute examines how the routine use of AI in healthcare could help to relieve the time and economic impact that common neurodegenerative diseases, such as Alzheimer's and Parkinson's, put on the National Health Service (NHS). The main risk factor for many neurological disorders is age, and with populations worldwide living longer than ever before, the number of people with a neurodegenerative disease is expected to hit unprecedented levels.
The number of people living with Alzheimer’s alone is predicted to treble to 115 million by 2050, posing a real challenge for the health system, the study noted. The study, published in the journal Nature Reviews Neurology, highlights how AI technologies, such as machine learning algorithms, can detect neurodegenerative disorders -- which cause part of the brain to die -- before progressive symptoms worsen.
This can improve patients' chances of benefitting from successful disease-modifying treatment. Lead author of the study, Dr Laura Ferraiuolo from the University of Sheffield, said: “Most neurodegenerative diseases still do not have a cure and in many cases are diagnosed late due to their molecular complexity. Widespread implementation of AI technologies can help, for example, predict which patients showing mild cognitive impairment will go on to develop Alzheimer’s disease, or how severely their motor skills will decline over time.
“AI-powered technologies can also be used to help patients communicate their symptoms remotely and in the privacy of their own homes, which will be an enormous benefit to patients with mobility issues.”
Machine learning algorithms can be trained to recognise changes caused by diseases in medical images, patient movement information, speech recordings or footage showing patient behaviour, making the AI a valuable diagnostic aid. For example, it can be used by trained professionals in radiology departments to analyse images more quickly and highlight critical results for an immediate follow-up.
Algorithms can also listen to patients’ speech and analyse their vocabulary and other semantic features to assess their cognitive function. Machine learning can also use the information contained within electronic health records or genetic profiles to suggest the best treatments for individual patients.
Monika Myszczynska, another scientist from the University of Sheffield, said: "It is too early to talk about the outcomes in terms of treatments but, in this study, we examined how machine learning methods can be used to identify the best course of treatment for patients based on their disease progression or how it could be used to identify new therapeutic targets and drugs."
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