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A pioneering low-cost device which takes 3D images could transform eye
screening and treatment across the globe.
The device, developed by researchers from the University of Strathclyde,
captures 3-D images of the retina, the back of the eye and cornea, and can
be added at low cost to a slit lamp, a device commonly used by
optometrists.
Patients with conditions such as glaucoma,
the third most common cause of visual impairment worldwide, with an
estimated 7.7 million people affected, are often diagnosed by
highly-trained specialists, who look at photos and give a subjective
opinion on the 3D structure of the back of the eye.
Although there are existing instruments for 3D imaging, including Optical
Coherence Tomography technology – the machines can cost up to £100,000,
often making them too expensive for large-scale population use, especially
in low-income countries. However, optometrists all over the world have
access to slit lamps. The new technology is a simple and inexpensive add-on
to a standard lamp, and can extend 3D eye imaging to all settings where
optometrists are present. It is so simple that a modified version of the
technology brings potential of 3D retinal ‘selfies’ without an operator,
meaning it could also be deployed in unassisted settings, like pharmacies.
The technology can also be used to image the front of the eye, which is
important for cornea transplant patients as many machines can’t measure the
edge of the cornea.
The device has been developed by Dr Mario Giardini, Dr Ian Coghill, and
Kirsty Jordan, at the Department of Biomedical Engineering of the
University of Strathclyde.
Dr Giardini said: “Patients can be imaged easily and inexpensively, without
the need for a specialist to be present. Our device reliably takes 3D
images, and it is comfortable and fast, at less than a second.
“The technology has the potential to revolutionise the screening and follow-up
within the community of conditions such as glaucoma, as any optometrist,
anywhere in the world, could afford it. This work makes eye diagnostics
more accessible, reducing inequalities.”
Dr Iain Livingstone, Consultant Ophthalmologist at NHS Forth Valley, who
has collaborated with Dr Giardini on previous ophthalmology projects, said:
“So much of what we do as eye doctors depends on seeing things in 3D. While
photographs can be helpful, this innovation uses visible light to re-create
a high fidelity 3D representation of eye structures, allowing precise
measurements to be taken in a completely new way, piggybacking on the
method of examination we already do routinely.
“It’s a crucial addition to the way we interpret information, harnessing
digital to glean so much more from a slit lamp exam, with potential reach
far beyond the hospital toward Community Optometry, bringing nuanced
measuring tools closer to home for patients.”
The researchers also hope it can eventually be used to detect eye cancer
and Dr Livingstone added: “This addition turns a slit lamp into a ‘3D
eye scanner’ with potential to supplant ocular ultrasound for measuring
solid tumours of the eye.”
The initial prototyping was funded by the Engineering and Physics Research
Council, part of UK Research & Innovation. The next step is now to make
the technology available to the medical community, and the University has
partnered with IDCP, a digital innovation group, to turn it into a medical
product.
CEO of IDCP group, Jan Boers, said: “Working with the University of
Strathclyde to develop new technology for eye screening has been very
productive, and this development will be a significant step for enabling
more accurate, accessible, and cost-effective solutions to eye diagnostics
globally. This is a great addition to our activities in the field of eye
screening with RetinaScope and IDCP Scotland.”
Jamie Thomson, Managing Director of IDCP Scotland, who received support
from Scotland’s national economic development agency Scottish Enterprise,
with a SMART grant of £85,000, said: “As a University of Strathclyde
alumnus, it gives me great pride to be working closely with the team
helping to develop this technology, which has the potential to improve the
quality of patient care and fits within IDCP Scotland’s key objective to
revolutionise patient care within ophthalmology.”
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