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Lenses that could block epileptic-seizure causing wavelengths developed

Prototype of liquid crystal lenses developed that selectively filter certain wavelengths

20 November 2024
A young man wearing glasses watching television while holding a bowl of food

People with photosensitive epilepsy could benefit from a prototype pair of glasses with lenses that block out wavelengths that are known to cause seizures in some people.

In a study published in Cell Reports Physical Science, researchers from the University of Glasgow and University of Birmingham have developed a prototype of a liquid crystal lens that they believe could help photosensitive epilepsy sufferers.

The lenses are controlled by very small changes in temperature that can be built into the lens, and when activated can block more than 98% of light in the 660-720nm wavelength range, known to affect the greatest number of people suffering from photosensitive epilepsy.

This paper demonstrates the potential for the use of liquid crystal lenses that can be modulated to cut out specific wavelengths of light.

Professor Zubair Ahmed

Zubair Ahmed, Professor of Neuroscience at the University of Birmingham and co-author of the study said:

“This is a hugely exciting project that felt like a science fiction project when we first started the work 4 years ago. This paper demonstrates the potential for the use of liquid crystal lenses that can be modulated to cut out specific wavelengths of light.”

“The prototype shows how a discrete circuit installed in the frame of a pair of glasses can power these lenses and be used in situations where certain wavelength light is likely to trigger a seizure, such as while watching TV or playing computer games. The circuit heats up the lenses to a comfortable temperature for wearers that will also cut out more than 98% of light with a wavelength that can cause seizures.”

Rami Ghannam, Professor of Electronics at the University of Glasgow and lead author of the study said:

“The project shows how collaboration between different disciplines such as engineering, neuroscience and mathematics can bring about potential discoveries that could transform the lives of patients affected by various diseases”.

“We are now developing this protype further to improve its performance before we take this into human studies”.

The authors note that the current prototype was functional in rooms up to 26oC temperatures, and further tweaks to the technology would be needed to cater for uses in hotter environments. The team also note that the time taken for the prototype to heat and cool can be improved.

Notes for editors

  • For media enquiries please contact Tim Mayo, Press Office, University of Birmingham, tel: +44 (0)7815 607 157.
  • The University of Birmingham is ranked amongst the world’s top 100 institutions. Its work brings people from across the world to Birmingham, including researchers, educators and more than 40,000 students from over 150 countries.
  • England’s first civic university, the University of Birmingham is proud to be rooted in of one of the most dynamic and diverse cities in the country. A member of the Russell Group and a founding member of the Universitas 21 global network of research universities, the University of Birmingham has been changing the way the world works for more than a century.
  • The University of Birmingham is a founding member of Birmingham Health Partners (BHP), a strategic alliance which transcends organisational boundaries to rapidly translate healthcare research findings into new diagnostics, drugs and devices for patients. Birmingham Health Partners is a strategic alliance between seven organisations who collaborate to bring healthcare innovations through to clinical application:
    • University of Birmingham
    • University Hospitals Birmingham NHS Foundation Trust
    • Birmingham Women's and Children's Hospitals NHS Foundation Trust
    • Aston University
    • The Royal Orthopaedic Hospital NHS Foundation Trust
    • Sandwell and West Birmingham Hospitals NHS Trust
    • West Midlands Academic Health Science Network
    • Birmingham and Solihull Mental Health NHS Foundation Trust
  • The University of Glasgow is a world top 100 university (THE, QS) and a member of the prestigious Russell Group of leading UK research universities. Named Scottish University of the Year by the Times & Sunday Times Good University Guide 2024, the University has been home to world-changing research and teaching for more than 570 years. As a world-leading, research-intensive University, the University of Glasgow is committed to contributing towards the UN’s 17 Sustainable Development Goals (SDGs) and has committed to carbon neutrality by 2030. It was the first European university to declare it would divest from fossil fuels by 2024 and the first in Scotland to declare a climate emergency. In 2021, the University of Glasgow received a Queen’s Anniversary Prize for its national service to the Covid-19 pandemic.
  • At the University of Glasgow, the study involved research from the James Watt School of Engineering, the School of Chemistry and the School of Mathematics and Statistics

 

Featured staff

  • Professor Zubair Ahmed

    Professor of Neuroscience

    Staff profile for Professor Zubair Ahmed, Professor of Neuroscience, Department of Inflammation and Ageing, College of Medicine and Health.

    Phone: +44 (0)121 414 8854
    Email: z.ahmed.1@bham.ac.uk

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