Physics World Weekly Podcast

Non-invasive pressure sensor could revolutionize how brain injuries are diagnosed

Apr 10, 2025

Panicos Kyriacou, chief scientist at Crainio and professor of engineering, is pioneering a non-invasive optical sensor for measuring intracranial pressure, a critical factor in diagnosing brain injuries. He discusses the limitations of invasive methods and the urgent need for efficient, non-invasive alternatives. Kyriacou explains how the sensor uses light and machine learning to monitor blood flow in real-time, potentially revolutionizing brain injury assessments both in clinical settings and emergency situations.

26:28

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Panicos Kyriacou

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Quick takeaways

Crainio's non-invasive optical sensor technology could revolutionize brain injury diagnosis by safely and accurately measuring intracranial pressure without surgery.

The startup aims to make this innovative device affordable and widely accessible, particularly in low-resource settings, transforming emergency care and sports medicine.

Deep dives

Non-Invasive Measurement of Intracranial Pressure

A startup has developed a non-invasive optical sensor that measures intracranial pressure, a critical indicator of brain injury severity. Traditional methods require invasive procedures where a sensor is inserted into the patient’s brain, posing risks of complications such as hemorrhage and infection. The new optical probe can simply be attached to the forehead, using light technology to assess intracranial pressure without surgery. This innovation aims to streamline diagnosis and treatment of traumatic brain injuries, which are a leading cause of disability and death.

Intro

3min

Revolutionizing Brain Injury Assessment

5min

Advancements in Intracranial Pressure Monitoring through Optical Technology

3min

Revolutionizing Brain Injury Diagnostics

11min

Revolutionizing Traumatic Brain Injury Diagnosis with Affordable Technology

4min

This episode of the Physics World Weekly podcast features an interview with Panicos Kyriacou, who is chief scientist at the UK-based start-up Crainio. The company has developed a non-invasive way of using light to measure the pressure inside the skull. Knowing this intracranial pressure is crucial when diagnosing traumatic brain injury, which a leading cause of death and disability. Today, the only way to assess intracranial pressure is to insert a sensor into the patient’s brain, so Crainio’s non-invasive technique could revolutionize how brain injuries are diagnosed and treated.

Kyriacou tells Physics World’s Tami Freeman why it is important to assess a patient’s intracranial pressure as soon as possible after a head injury. He explains how Crainio’s optical sensor measures blood flow in the brain and then uses machine learning to deduce the intracranial pressure.

Kyriacou is also professor of engineering at City St George’s University of London, where the initial research for the sensor was done. He recalls how Crainio was spun out of the university and how it is currently in a second round of clinical trials.

As well as being non-invasive, Crainio’s technology could reduce the cost of determining intracranial pressure and make it possible to make measurements in the field, shortly after injuries occur.

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Physics World Weekly Podcast

Non-invasive pressure sensor could revolutionize how brain injuries are diagnosed

Episode guests

Podcast summary created with Snipd AI

Quick takeaways

Deep dives

Non-Invasive Measurement of Intracranial Pressure

Advancements and Clinical Trials

Future Impact and Market Readiness

Remember Everything You Learn from Podcasts