Researchers say they can accurately identify people on track to develop Alzheimer’s disease before symptoms appear, which could help the progress of drug trials.
US scientists were able to use levels of a protein in the blood to help predict its build-up in the brain.
UK experts said the results were promising – and a step towards a reliable blood test for Alzheimer’s to speed up dementia research.
But larger studies were needed first.
Alzheimer’s is the most common cause of dementia, affecting more than 520,000 people in the UK, mostly over-65s, and millions around the world.
There are currently no treatments to halt the disease.
Up to 20 years before people develop memory loss and confusion, which is characteristic of Alzheimer’s, damaging clumps of protein start to build up in their brains.
But costly, time-consuming positron emission tomography (Pet) brain scans are currently the only way to test for this.
Researchers from Washington University School of Medicine, in St Louis, Missouri, writing in Neurology, measured levels of one protein, called amyloid beta, in the blood of 158 adults aged over 50 to see if this matched levels found in brain scans.
It did, but only 88% of the time – which is not accurate enough for a diagnostic test.
When the researchers combined this information with two other risk factors for the disease – an age of over 65 and people with a genetic variant called APOE4, which at least triples the risk of the disease – the accuracy of the blood test improved to 94%.
Senior study author Randall J Bateman, professor of neurology, said this could now help screen many more people than expensive brain scans.
Testing drugs earlier: Dr Pickett added: “This test will speed up dementia research by identifying those at risk of Alzheimer’s who might be suitable for clinical trials aimed at preventing or delaying the development of dementia.
“In the meantime, we’re eagerly awaiting the results of larger studies to validate this blood test.”
Dr Sara Imarisio, from Alzheimer’s Research UK, said: “Improving the accuracy of blood tests has long been a goal for researchers and using additional information about genetic risk to bolster a test like this is an encouraging step forward.