Predicting people's 'brain age' could help to spot who is at risk of early death
Imperial College London Health News May 03, 2017
A method for predicting someone's 'brain age' based on MRI scans could help to spot who might be at increased risk of poor health and dying earlier.
By combining MRI scans with machine learning algorithms, a team of neuroscientists led by researchers at Imperial College London, has trained computers to provide a predicted Âbrain age for people based on their volume of brain tissue.
When the technique was tested on a study population of older adults in Scotland, they found that the greater the difference between a personÂs brain age and their actual age, the higher their risk of poor mental and physical health, and even early death.
The researchers stress that while the technique is a long way from being used in clinical practice, they are hopeful it might one day be used as a screening tool, helping to identify those at risk of cognitive decline and dying before the age of 80, providing an opportunity for early intervention.
Scientists around the world are working to find reliable biomarkers that can be used to measure age, such as from blood and hair samples. In the latest study, published in the journal Molecular Psychiatry, researchers from Imperial and the University of Edinburgh have added a neuroimaging approach to the growing gerontology toolkit.
ÂWe've come up with a way of predicting someoneÂs brain age based on an MRI scan of their brain, explained Dr James Cole, a research associate in the Department of Medicine, who led the study.
ÂOur approach uses the discrepancy between their chronological age and what we call their brain–predicted age as a marker of age–related atrophy in the brain. If your brain is predicted to be older than your real age than that reflects something negative may be happening.Â
At the heart of the approach is a technique first developed in 2010 that measures brain volume and uses machine learning to estimate the overall loss of grey and white matter  a hallmark of the ageing process in the brain.
Dr Cole took this basic technique and refined it by testing it on publicly available datasets of MRI scans of more than 2,000 healthy peopleÂs brains, resulting in normalised maps which accurately predicted the personÂs age.
Following this fine–tuning, it was then applied to scans of 669 people from the Lothian Birth Cohort 1936, a well–studied group of adults all born in 1936 who had undergone MRI scans at age 73, giving them a score for predicted brain age.
Analysis revealed that those with a brain age older than their chronological age performed worse on standard physical measures for healthy ageing, including grip strength, lung capacity and walking speed.
Crucially, those with Âolder brains were statistically more likely to die before the age of 80, with the average discrepancy between brain age and chronological age being eight years for deceased males and two years for deceased females.
If the initial findings could be applied to a screening programme, the technique could be used to inform health practitioners, showing whether or not a patient had a healthy brain age or was above or below the line, similar to how body mass index (BMI) is used today.
The team is now looking to refine the technique further, incorporating different types of imaging, such as diffusion MRI scans, to improve accuracy.
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By combining MRI scans with machine learning algorithms, a team of neuroscientists led by researchers at Imperial College London, has trained computers to provide a predicted Âbrain age for people based on their volume of brain tissue.
When the technique was tested on a study population of older adults in Scotland, they found that the greater the difference between a personÂs brain age and their actual age, the higher their risk of poor mental and physical health, and even early death.
The researchers stress that while the technique is a long way from being used in clinical practice, they are hopeful it might one day be used as a screening tool, helping to identify those at risk of cognitive decline and dying before the age of 80, providing an opportunity for early intervention.
Scientists around the world are working to find reliable biomarkers that can be used to measure age, such as from blood and hair samples. In the latest study, published in the journal Molecular Psychiatry, researchers from Imperial and the University of Edinburgh have added a neuroimaging approach to the growing gerontology toolkit.
ÂWe've come up with a way of predicting someoneÂs brain age based on an MRI scan of their brain, explained Dr James Cole, a research associate in the Department of Medicine, who led the study.
ÂOur approach uses the discrepancy between their chronological age and what we call their brain–predicted age as a marker of age–related atrophy in the brain. If your brain is predicted to be older than your real age than that reflects something negative may be happening.Â
At the heart of the approach is a technique first developed in 2010 that measures brain volume and uses machine learning to estimate the overall loss of grey and white matter  a hallmark of the ageing process in the brain.
Dr Cole took this basic technique and refined it by testing it on publicly available datasets of MRI scans of more than 2,000 healthy peopleÂs brains, resulting in normalised maps which accurately predicted the personÂs age.
Following this fine–tuning, it was then applied to scans of 669 people from the Lothian Birth Cohort 1936, a well–studied group of adults all born in 1936 who had undergone MRI scans at age 73, giving them a score for predicted brain age.
Analysis revealed that those with a brain age older than their chronological age performed worse on standard physical measures for healthy ageing, including grip strength, lung capacity and walking speed.
Crucially, those with Âolder brains were statistically more likely to die before the age of 80, with the average discrepancy between brain age and chronological age being eight years for deceased males and two years for deceased females.
If the initial findings could be applied to a screening programme, the technique could be used to inform health practitioners, showing whether or not a patient had a healthy brain age or was above or below the line, similar to how body mass index (BMI) is used today.
The team is now looking to refine the technique further, incorporating different types of imaging, such as diffusion MRI scans, to improve accuracy.
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