A blood test for healthy ageing has been developed that could identify people who are growing old too fast and at risk of dementia.

The genetic test is the first to provide an objective measurement of biological age and can provide an early warning of Alzheimer's disease and other forms of dementia years in advance.

Scientists from King’s College in London analysed thousands of blood, brain and muscle samples to find 150 markers of gene activity associated with good health at the age of 65.

These were used to produce a score-based rating system for healthy ageing that could be incorporated into a blood test.

When a group of more than 700 healthy 70-year-olds were given the test they were found to have widely ranging healthy ageing scores that varied by up to four times.

In particular higher scores were associated with better mental ability, kidney function and longevity over a period of 12 years while low scores were linked to Alzheimer's.

Lead researcher Professor James Timmons, from King's College London, said: "We use birth year, or chronological age, to judge everything from insurance premiums to whether you get a medical procedure or not.

"Most people accept that all 60-year-olds are not the same, but there has been no reliable test for underlying 'biological age'.

"Our discovery provides the first robust molecular 'signature' of biological age in humans and should be able to transform the way that 'age' is used to make medical decisions.

"This includes identifying those more likely to be at risk of Alzheimer's, as catching those at 'early' risk is key to evaluating potential treatments," he said.

The test involves looking at RNA associated with genes in different body tissues.

The RNA acts as a "messenger" that carries genetic instructions to protein-making machinery in cells. It can be used to measure levels of gene activity.

Study participants' scores were found to correlate strongly with long-term health over two decades, said the scientists writing in the journal Genome Biology.

Individuals diagnosed with Alzheimer's disease were found to have an altered RNA signature in their blood and a lower healthy age score.