For people with diabetes, the chance of developing eye damage that can lead to blindness may depend on how many hours per day they can keep their blood sugar levels under control, a Chinese study suggests. This eye damage, known as diabetic retinopathy, is often caused by diabetes-related changes in blood vessels in the eye and is one of the leading causes of blindness in working-age adults, researchers note in Diabetes Care. Poorly controlled glucose, or blood sugar, has long been linked to an increased risk of diabetic retinopathy. But the current study offers fresh evidence that the number of hours each day that people spend with poorly controlled blood sugar and the variation of glucose levels over 24 hours can both influence their risk of eye damage, said senior study author Dr. Weiping Jia of the Shanghai Jiao Tong University Affiliated Sixth Peoples Hospital. To minimise the risk of retinopathy, a patient needs to control his/her blood glucose as soon as possible, and maintain the glucose levels in the target range as long as possible, Jia said by email. The 3,262 patients in the study were 60 years old on average and had been living with type 2 diabetes for an average of about eight years. They typically had poorly controlled diabetes, based on blood tests of so-called haemoglobin A1c, which reflect average blood sugar levels over about three months. A1c readings above 6.5 percent signal diabetes, and everyone in the study had readings of at least 7.5 percent. Participants initial A1c readings averaged 8.9 percent, representing dangerously elevated blood sugar that can increase the risk of heart attacks, strokes, kidney failure, blindness, amputations and death. For the study, researchers asked all the participants to wear continuous glucose monitors over three days to directly measure their blood sugar in real time. They calculated whats known as time in range (TIR), the total proportion of time over 24 hours that blood sugar was within a healthy range of 3.9 millimoles per litre to 10 mmol/L (70 milligrams per decilitre to 180 mg/dL). Overall, 780 people in the study, or 24 percent, had diabetic retinopathy. Patients with the least amount of time in range in a typical 24-hour period were most likely to have diabetic retinopathy, the analysis found. Less time in range was also associated with increased severity of the eye damage among those with retinopathy. This link between time spent in range and eye disease was independent of the A1c readings, suggesting that even among people whose average blood sugar over months seems good, sharp daily fluctuations can still do damage. The study wasnt designed to prove whether or how time in range might directly impact diabetic retinopathy, and it also wasnt set up to test any potential benefits of continuous glucose monitoring, such as whether it helps control blood sugar levels. Controlling blood glucose has been shown to reduce progression of diabetic eye disease in trials in both type 1 and 2 diabetes, Dr. Simon Heller, a clinical diabetes professor at the University of Sheffield in the UK who wasnt involved in the study, said by email. Heller has consulted or advised makers of diabetes drugs and devices including Eli Lilly, Novo-Nordisk, Mannkind and Takeda. Improving blood sugar can both help prevent diabetic retinopathy and stall its progression once people already have this complication, said Dr. Roy Beck, executive director of the Jaeb Centre for Health Research in Tampa, Florida. The closer to the normal range a person with diabetes can achieve, the lower will be the risk of retinopathy, Beck, who wasnt involved in the study, said by email. If near normal glucose levels can be achieved, the risk is very low.
Reuters Health, 19 October 2018 ; http://www.reuters.com/news/health