New device could revolutionise eye disease diagnosis – creating eye maps on the high street
Ophthalmoscopes, which act as an illuminated microscope for the eye, have changed little in design in the last century. As a result the effective operation of the device is constrained by the skill, expertise and eyesight of the eye specialist.
The new digital ophthalmoscope (developed from a three-year research partnership bringing together the University of Warwick, ophthalmoscope manufacturer Keeler Optics, City University, & UCL) uses a combination of specialist lens digital imaging and lighting technology which for the first time allows a high quality digital image to be captured and recorded by an ophthalmoscope.
University of Warwick research Professor Peter Bryanston-Cross has also been able to apply software used to stitch together detailed map images to assemble the captured images from the digital ophthalmoscope. This produces a highly detailed single picture of medical significance and usefulness. It provides a map of the eye equal to the field of view and resolution of the large “Fundus” cameras typically used in hospital settings to examine eyes. The new digital ophthalmoscope would also be around 10 times cheaper than a Fundus camera.
This technology will be a powerful tool in the hands of specialist eye doctors, but it will also revolutionize eye care on the high street. Previously high street opticians have had to rely on notes and hand drawn sketches when referring customers to eye clinics. This new technology will allow them to create and email detailed eye images to hospital specialists cutting patient referral and diagnosis times and massively easing the burden on expensive and overstretched hospital eye equipment.
Warwick Hospital consultant eye surgeon Gary Misson has been working with Professor Peter Bryanston-Cross’s digital ophthalmoscope research digital programme for several years. He says:
“This is an exciting development as it makes an instrument that is traditionally difficult to use much easier to handle and therefore available for use to a wider range of health care workers. It will allow digital images of disease such as the potentially blinding complications of diabetes and glaucoma to be accurately and quickly sent to specialists who will then be able to arrange appropriate treatment. I foresee a relatively inexpensive instrument that is about the size of a mobile phone in common use in the near future”
Media Contact
All latest news from the category: Medical Engineering
The development of medical equipment, products and technical procedures is characterized by high research and development costs in a variety of fields related to the study of human medicine.
innovations-report provides informative and stimulating reports and articles on topics ranging from imaging processes, cell and tissue techniques, optical techniques, implants, orthopedic aids, clinical and medical office equipment, dialysis systems and x-ray/radiation monitoring devices to endoscopy, ultrasound, surgical techniques, and dental materials.
Newest articles
First-of-its-kind study uses remote sensing to monitor plastic debris in rivers and lakes
Remote sensing creates a cost-effective solution to monitoring plastic pollution. A first-of-its-kind study from researchers at the University of Minnesota Twin Cities shows how remote sensing can help monitor and…
Laser-based artificial neuron mimics nerve cell functions at lightning speed
With a processing speed a billion times faster than nature, chip-based laser neuron could help advance AI tasks such as pattern recognition and sequence prediction. Researchers have developed a laser-based…
Optimising the processing of plastic waste
Just one look in the yellow bin reveals a colourful jumble of different types of plastic. However, the purer and more uniform plastic waste is, the easier it is to…