SFC Fluidics, Inc. Receives SBIR Phase II Funding to Develop a Dual Hormone Patch Pump for Patients with Diabetes

By September 20, 2018 No Comments

FAYETTEVILLE, AR – SFC Fluidics® is pleased to announce that it has been awarded a $1.4 million grant to support development of a dual hormone patch pump for patients with diabetes.

There are 4 million insulin-dependent Type 1 diabetics worldwide and this number is expected to increase over time. The challenges of maintaining proper glycemic control are particularly difficult for young patients who understandably dislike the multiple needle sticks required for measuring blood glucose levels and delivering the appropriate doses of insulin or glucagon. SFC’s proposed patch pump system will have the necessary safety features and dose accuracy to allow automated insulin and glucagon dosing to achieve fine-tuned glycemic control in patients with Type 1 diabetes.

SFC Fluidics’ proprietary ePump® system can control the delivery of both insulin and glucagon in a discreet patch pump that is the same size as the insulin-only patch pumps currently on the market. A second proprietary feature of the proposed system is a flow confirmation sensor that determines whether dose administration has occurred as expected in real-time. This sensor will quickly alert to any problems within the patch pump such as occlusions, leaks, depleted drug supply, accidental misloading, and any mechanical/electrical failure. According to Dr. Forrest Payne, the Principal Investigator on the project, “The suite of patents and patent applications that covers SFC Fluidics’ system – from the pump to the valves to the sensors – will allow for development of a next generation dual-hormone patch pump that combines safety, convenience and small size with excellent accuracy and precision.”

“We think the proposed system will be especially attractive to adolescents with Type 1 diabetes and will serve the broader diabetic community as well. What’s more, we see the dual hormone drug delivery system as a vital part of a future state-of-the-art artificial pancreas,” remarked Greg Lamps, SFC’s Vice President of Product Realization.

SFC Fluidics, Inc. has a mission to advance healthcare and improve quality of life through our enabling microfluidic technologies. The company’s vision is to become a recognized global leader in the drug delivery and health monitoring markets where our unique product lines improve lifestyle and affordability.

The described research is supported by the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health, under Award Number 2R44DK110972-02. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.