Artificial Pancreas to Undergo Final Tests, Could Lead to FDA Approval

University of Virginia project turns a smartphone into an artificial pancreas, could transform lives of people with type-1 diabetes and replace need for testing and injections.

A device developed by University of Virginia School of Medicine researchers to automatically monitor and regulate blood-sugar levels in people with type 1 diabetes will undergo final testing in two clinical trials beginning in early 2016.

University Project Turns a Smartphone into an Artificial Pancreas
The device consists of a reconfigured smartphone running advanced algorithms, linked wirelessly with a blood glucose monitor and an insulin pump, and communicating with Internet services in real time.

The trials will be conducted at nine locations in the U.S. and Europe, supported by a grant of more than $12.6 million from the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health. The first study — the International Diabetes Closed-Loop trial — will test technology developed at UVA by a research team led by Boris Kovatchev, PhD, director of the UVA Center for Diabetes Technology. That technology has been further refined for clinical use by TypeZero Technologies, a startup company in Charlottesville that has licensed the UVA system.

The second trial will also examine a new control algorithm developed by the team of Dr. Francis Doyle III at the Harvard John A. Paulson School of Engineering and Applied Sciences to test whether it further improves control of blood-sugar levels.

Favorable results from these long-term clinical trials examining how the artificial pancreas works in real-life settings could lead the U.S. Food and Drug Administration and other international regulatory groups to approve the device for use by people with type 1 diabetes, whose bodies do not produce enough insulin. Approximately 1.25 million Americans have type 1 diabetes, according to the U.S. Centers for Disease Control and Prevention.

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Boris Kovatchev
Boris Kovatchev, PhD, is director of the University of Virginia Center for Diabetes Technology.

“To be ultimately successful as an optimal treatment for diabetes, the artificial pancreas needs to prove its safety and efficacy in long-term pivotal trials in the patient’s natural environment,” Kovatchev said. “Our foremost goal is to establish a new diabetes treatment paradigm: the artificial pancreas is not a single-function device; it is an adaptable, wearable network surrounding the patient in a digital treatment ecosystem.”

How the Artificial Pancreas Works

The goal of the artificial pancreas is to eliminate the need for people with type 1 diabetes to stick their fingers multiple times daily to check their blood-sugar levels and to inject insulin manually. Instead, the artificial pancreas is designed to oversee and adjust insulin delivery as needed. At the center of the artificial pancreas platform — known as InControl — is a reconfigured smartphone running advanced algorithms that is linked wirelessly to a blood-sugar monitor and an insulin pump, as well as a remote-monitoring site. People with the artificial pancreas can also access assistance via telemedicine.

International Clinical Trials Planned

Two trials are planned as part of the NIH-funded study. In the first study, 240 patients with type 1 diabetes will test the safety and effectiveness of the artificial pancreas for six months while going about their regular daily routines. The artificial pancreas will be compared with a standard insulin pump on two key measures: how well blood-sugar levels are controlled and whether the risk of hypoglycemia, or low blood sugar, is reduced.

A second trial will follow 180 patients who completed the first study for an additional six months to test the Harvard University-developed algorithm and determine whether it further enhances blood sugar control.

Along with UVA, the artificial pancreas will be tested at eight additional sites: Harvard University, Mount Sinai School of Medicine, Mayo Clinic, University of Colorado, Stanford University, University of Montpellier in France, University of Padova in Italy and Academic Medical Center at the University of Amsterdam in The Netherlands.

Watch this video interview with Boris Kovatchev, PhD, director of the University of Virginia Center for Diabetes Technology.

The NIH/NIDDK grant is No. UC4DK108483.

Source: University of Virginia Health System
Photo Credit: Jackson Smith, UVA Health System

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