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Montelukast may inhibit changes in diabetic retinopathy in type 1 diabetes, finds study

Montelukast may inhibit changes in diabetic retinopathy in type 1 diabetes, finds study

Montelukast may inhibit changes in diabetic retinopathy in type 1 diabetes, finds a new study.

In a new study physician-researchers from University Hospitals Rainbow Babies and Children’s Hospital and Case Western Reserve University School of Medicine found that the asthma medication montelukast can inhibit early changes in diabetic retinopathy, the eye disease which develops due to diabetes, in a mouse model of type 1 diabetes. The study has been published in the journal Diabetes.

“We found that montelukast (Singulair) was able to disrupt the signalling of inflammatory molecules called leukotrienes.  This disruption significantly reduced small blood vessel and nerve damage that we see in the early stages of diabetic retinopathy,” said senior author Rose Gubitosi-Klug, M.D., Ph.D., Chief of Pediatric Endocrinology at UH Rainbow and the William T. Dahms Professor of Pediatrics at CWRU School of Medicine.

“While most therapies target the late stages of the eye disease in diabetes, these findings offer a much-needed approach to treat the disease much earlier.”

“The re-purposing of a medication already FDA-approved for use in children and adolescents sets the stage for rapid translation of these animal model findings to human subjects,” said Dr. Gubitosi-Klug. “The daily dose equivalent used in the current study is similar to the once-daily dose used in the treatment of asthma.  Reassuringly, in our diabetes model as in asthma studies, this dose allows effective suppression of chronic inflammation, which can prevent pathology, but avoids complete inhibition of inflammation, which can compromise innate immunity.”

“Moreover, montelukast was efficacious in both prevention and delayed intervention approaches, which implies relevance to patients with newly-diagnosed diabetes as well as individuals living with diabetes of longer duration,” she said.  “Thus, there is a promise that a safe treatment that effectively stabilizes airways in asthma may also preserve small blood vessels and nerve cells in diabetes.”

Other authors on the study are Reena Bapputty and Ramaprasad Talahalli, from UH and CWRU; Simona Zarini and Robert Murphy from the University of Colorado, and Ivy Samuels from the Louis Stokes Cleveland VA Medical Center.  The study was funded by the National Eye Institute.

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