A new vision screening device, already shown to give an early warning of eye disease, could give doctors and patients a head start on treating diabetes and its vision complications, a new study shows.
It captures images of the eye to detect metabolic stress and tissue damage that occur before the first symptoms of disease are evident.
The instrument, invented by two scientists at the University of Michigan Kellogg Eye Center, captures images of the eye to detect metabolic stress and tissue damage that occur before the first symptoms of disease are evident and takes only 5 minutes.
For people with diabetes — diagnosed or not — the new device could offer potentially significant advantages over blood glucose testing, the “gold standard” for diabetes detection.
The device takes a specialized photograph of the eye and is non-invasive, taking about five minutes to test both eyes.
Victor M. Elner, M.D., Ph.D., and Howard R. Petty, Ph.D., report on the potential of the new instrument to screen for diabetes and determine its severity. If further testing confirms the results to date, the new instrument may be useful for screening people who are at risk of diabetes but haven’t been diagnosed.
“Our objective in performing this study was to determine whether we could detect abnormal metabolism in the retina of patients who might otherwise remain undiagnosed based on clinical examination alone,” says Elner, professor, Department of Ophthalmology and Visual Sciences at U-M Medical School.
Metabolic stress, and therefore disease, can be detected by measuring the intensity of cellular fluorescence in retinal tissue. In a previous study, Petty and Elner reported that high levels of flavoprotein autofluorescence (FA) act as a reliable indicator of eye disease.
In their new study, Elner and Petty measured the FA levels of 21 individuals who had diabetes and compared the results to age-matched healthy controls. The Kellogg scientists found that FA activity was significantly higher for those with diabetes, regardless of severity, compared to those who did not have the disease. The results were not affected by disease severity or duration and were elevated for diabetics in each age group: 30 to 39 years, 40 to 49 years, and 50 to 59 years.
Given the increasing prevalence of diabetes, the FA device holds the potential to help address a leading and growing public health concern.
4.1 million people over the age of 40 suffer from diabetic retinopathy.
Twelve individuals in the study were known to have diabetic retinopathy, a disease in which blood vessels in the eye are damaged. The individuals with diabetic retinopathy in at least one eye had significantly greater FA activity than people with diabetes who do not have any visible eye disease.
“The abnormal readings indicated that it may be possible to use this method to monitor the severity of the disease,” says Elner.
Petty, a biophysicist and imaging expert, explains that hyperglycemia — or high blood sugar — is known to induce cell death in diabetic tissue soon after the onset of disease but before symptoms can be detected clinically.
“Increased FA activity is the earliest indicator that cell death has occurred and tissue is beginning to break down,” says Petty, professor of Ophthalmology and Visual Sciences, and professor of Microbiology and Immunology at the U-M Medical School. “FA serves as a ‘spectral-biomarker’ for metabolism gone awry, and we can use the results to detect and monitor disease.”
Petty also observes that unlike glucose monitoring, elevation of FA levels reflects ongoing tissue damage. That knowledge, he says, could motivate patients to intensify their efforts to manage the disease.
The Michigan researchers also note that elevated FA does not always mean that an individual has diabetes. “Because of the prevalence of diabetes in our population, individuals with abnormally high FA would be prompted to undergo glucose tolerance testing,” says Elner. “If the findings were negative for diabetes, we would look for other causes of ocular tissue dysfunction.”
Both Elner and Petty agree that the device has great potential as a tool for diabetes screening and management. “So much damage occurs before the disease can be detected by a doctor,” says Elner. “Early diagnosis will allow us to reduce organ damage and prevent many complications that accompany this disease.”
Elner and Petty have filed for patents and have formed a company, OcuSciences, Inc., to commercialize the metabolic imaging instrument.
Reference: “Rapid, Non-invasive Detection of Diabetes-induced Retinal Metabolic Stress,” Archives of Ophthalmology, July 2008, Vol. 126, No. 7, pp. 934-938.
Doctors Can Look Into Eyes To Detect Diabetes: The doctors can simply look into eyes of a person using Snapshots to know if he/she will eventually get diabetes. Snapshots- a new device designed by scientists at the University of Michigan Kellogg Eye Centre, captures eye images to detect metabolic stress and tissue damage that occurs well before the first symptoms of diabetes become apparent and takes only 5 minutes. This non invasive method not only points to impending eye disease problems but diabetes as well and is being called superior to blood glucose testing which was the standard method for testing earlier.. See This Weeks’ Item #4
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