Blood test may transform detection of brain damage after head injury – study

·3-min read
Blood test may transform detection of brain damage after head injury – study (David Davies/PA) (PA Wire)
Blood test may transform detection of brain damage after head injury – study (David Davies/PA) (PA Wire)

An ultrasensitive blood test could be the key to detecting brain damage, predicting people’s clinical outcomes, and identifying those at risk of developing dementia after a head injury.

A new study has used a state-of-the-art test to track damage to the brain in people who have sustained traumatic brain injury (TBI).

The findings mean future blood tests could provide similar information to MRIs, but in a more cost-effective and accessible manner.

Researchers suggest measuring the protein biomarker in the blood will provide a simpler, more accurate way to predict clinical outcomes.

This work gets us closer to a blood test able to predict how brain changes develop up to one year after injury

Dr Rosa Sancho

They say it may even help to identify those at higher risk of developing dementia.

Professor David Sharp is the senior author of the paper and director of the the UK Dementia Research Institute’s (UK DRI) Care Research and Technology Centre based at Imperial College London.

He said: “Outcomes after TBI are very difficult to predict.

“This is a major challenge for doctors trying to care for patients recovering from head injuries of all severities.

“What we need are more accurate diagnostic tests that can be used in our major trauma units and clinics.

“Our work shows that measuring neurofilament light soon after head injury helps predict who will develop long-term problems.

“We are applying this in various contexts, including for the investigation of sporting TBI, and will be investigating whether this blood test can be used to predict those at high risk of developing dementia.”

Across the world, around 50 million people each year experience TBI as a result of head injury.

In their brains, the nerve cells encounter severe forces which cause damage to their axons – the part which transmits electrical signals.

This damage is the best predictor of clinical outcomes and recovery but has been difficult to measure in patients, researchers say.

The team from the UK DRICare Research and Technology Centre, based at Imperial College London, set out to identify a chemical that could be easily detected in the blood – a biomarker – that would accurately reflect this axonal damage in the brain after TBI.

To do this they harnessed cutting-edge technology.

They began by detecting proteins that are important to the structure of the nerve cell axons.

Scientists found that measuring blood levels of neurofilament light, a protein important for axonal structure, provided an accurate long-term prognosis for the patient.

To validate the blood tests, the researchers used advanced types of brain imaging.

Dr Neil Graham is joint first author and Alzheimer’s Research UK Clinical Research Fellow at the UK DRI’s Care Research and Technology Centre.

He said: “I’m extremely excited by the ultrasensitive blood test technology we used here as it has opened up a whole new world of possibilities when it comes to precise injury diagnosis and prediction of outcomes after head injury.

“This is particularly useful in the area of dementia risk assessment after TBI, which is very challenging at present.

“If we could roll the neurofilament light test out across the country, it would be hugely impactful.

“We’re gearing up to offer it to NHS patients at Imperial in the near future.”

Dr Rosa Sancho, head of research at Alzheimer’s Research UK, said: “This work gets us closer to a blood test able to predict how brain changes develop up to one year after injury.

“Dementia develops over many years and we need to build on these findings to help improve longer-term prognosis and to reliably determine an individual’s risk of dementia following a head injury.”

The study involved more than 200 patients who had experienced moderate to severe TBI, recruited from eight major trauma centres across Europe.

The study is published in Science Translational Medicine.

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