Innovations in technology for the treatment of diabetes: clinical development of the artificial pancreas (an autonomous system).

The Food and Drug Administration in collaboration with the National Institutes of Health presented a public workshop to facilitate medical device innovation in the development of the artificial pancreas (or autonomous system) for the treatment of diabetes mellitus on November 10, 2010 in Gaithersburg, Maryland. The purpose of the workshop was to discuss four aspects of artificial pancreas research and development, including: (1) the current state of device systems for autonomous systems for the treatment of diabetes mellitus; (2) challenges in developing this expert device system using existing technology; (3) clinical expectations for these systems; and (4) development plans for the transition of this device system toward an outpatient setting. The patients discussed how clinical science, system components, and regulatory policies will all need to harmonize in order to achieve the goal of seeing an AP product brought forward to the marketplace for patients to use.

FDA's proactive role in the development of an artificial pancreas for the treatment of diabetes mellitus.

One of the critical path initiatives of the Food and Drug Administration (FDA) is to accelerate the development and availability of a safe and effective artificial pancreas for the treatment of diabetes mellitus. The FDA has established a multidisciplinary group of scientists and clinicians, in partnership with the National Institutes of Health (NIH), to address the clinical, scientific and regulatory challenges related to this unique medical product.:

Regulatory aspects of invasive glucose measurements.

On May 26, 1976, the Food and Drug Administration (FDA) began implementing the Medical Device Amendments to the Federal Food Drug and Cosmetic Act. These amendments give FDA specific authority to regulate "medical devices." Additional authority was provided in the Safe Medical Devices Act of 1990. The pathways to get in vitro diagnostic products to market for commercial distribution include: premarket notification [or 510(k)] and premarket approval (PMA). Reviews of these applications are performed in the Division of Clinical Laboratory Devices, Office of Device Evaluation within the Center for Devices and Radiological Health. Most submissions for invasive glucose devices are 510(k) applications. Through this process the manufacturer demonstrates that its device is substantially equivalent to another device that is already legally marketed, referred to as the predicate device. To date, noninvasive and minimally invasive glucose testings have been approved through the PMA process and will be discussed in a separate article.

Regulatory aspects of noninvasive glucose measurements.

The Medical Device Amendments of 1976 to the Federal Food, Drug, and Cosmetic Act (the Act) established three regulatory classes for medical devices. Section 513 of the Act specifies three classes based upon the degree of control and Food and Drug Administration (FDA) oversight that is necessary to assure that the various types of devices are safe and effective. High-risk devices are placed into the most regulated device class, Class III. Under Section 515 of the Act, all devices placed in Class III are subject to premarket approval (PMA) requirements. PMA by FDA is the required process of scientific review to ensure the safety and effectiveness of Class III devices. Advisory panel review is required of virtually all original submissions. Manufacturing facilities of devices requiring PMA approval are also subject to preapproval inspection to assure data integrity and compliance with good manufacturing practices. An approved PMA is granted for marketing a particular medical device for a particular intended use. FDA considers noninvasive and minimally invasive glucose devices that are intended to measure, monitor, or predict blood glucose levels in diabetics to be high-risk medical devices. These devices will have a significant potential impact on the medical care of people with diabetes. The technology offers potential improvements in the quality of life, enhanced blood glucose control through increased frequency of testing, or access to testing, in a broader range of patients. However, the technology is not yet well understood, and the information obtained from these devices is often different from the information that has been the traditional base for the management of diabetes. As a result, FDA requires both analytical and clinical studies to support the intended claims for these new devices.