This year, around 100,000 people in the UK will have a stroke. AI algorithms developed by a University of Oxford spinout company are ensuring that more stroke patients will receive better care and outcomes.
It’s no coincidence that the best-known acronym for spotting signs of a stroke urges FAST action. Every second counts, not least for the clinicians making crucial decisions about diagnosis and treatment.
Brainomix is a digital health company which spun out of the University’s preclinical stroke lab, part of the Nuffield Department of Clinical Neurosciences, in 2010. It was co-founded by Dr Michalis Papadakis, who now works full-time as the company's CEO.
The company has developed state-of-the-art AI algorithms to help doctors make quick, accurate decisions for patients. Its e-Stroke platform analyses images from simple CT scans, providing detailed real-time information – available to view remotely – on the extent and nature of damage to the brain.
The technology is effective: studies have shown that implementing e-Stroke reduces arrival-to-discharge times by more than one hour, as well as tripling the number of stroke patients going on to achieve functional independence.
The e-Stroke platform – the most comprehensive tool of its kind – has been adopted by more than 30 healthcare systems worldwide and has raised over £30m in public and private funding. A patient is scanned using e-Stroke every five minutes, with results available in just 60 seconds.
Brainomix has now developed similar AI-powered imaging platforms for lung disease and cancer. The company is regularly showcased by government as a leader in the health data revolution.
This year, around 100,000 people in the UK will have a stroke. That’s one every five minutes. Globally, the annual number of strokes is estimated to be upwards of 12 million, making it one of the world’s leading causes of death and disability. Brainomix is ensuring that an increasing number of those people will receive better care and better outcomes – a shining example of the potential for academic spinouts to translate innovative research into real-world impact that can benefit patients and healthcare providers.