|Medtronic and Fitbit Partner to Integrate Health and Activity Data Into New CGM Solution for Simplified Type 2 Diabetes Management|
New iPro(TM)2 myLog App Collects Data from Continuous Glucose Monitors (CGM) and Fitbit Activity Trackers, Provides Meaningful Insights on How Exercise Impacts Glucose Levels
DUBLIN and SAN FRANCISCO - Dec. 7, 2016 - Medtronic plc (NYSE: MDT), the global leader in medical technology, and Fitbit (NYSE: FIT), the leader in the connected health and fitness market, announced a partnership to integrate health and activity tracking for patients living with diabetes and their physicians and care teams. The iPro(TM)2 myLog mobile app will allow patients living with type 2 diabetes to see their glucose levels and physical activity data in one streamlined application. The new integration and partnership brings together Medtronic's sophisticated medical technology with the convenience of automatic activity tracking from Fitbit, which provides meaningful insights into how exercise impacts glucose levels for more effective diabetes care management.
"We believe monitoring glucose is a critical element in the management of diabetes and therefore, glucose should be included among other vital signs. As such, it has never been more important to increase the collaboration between healthcare and technology to simplify daily diabetes management for the 29 million patients living with type 2 diabetes in the United States," said Laura Stoltenberg, vice president and general manager of Non-Intensive Diabetes Therapies at Medtronic. "By creating a connection between physical activity and glucose levels, our iPro2 myLog mobile app solution provides new tools and insights, so that physicians can optimize therapy and patients can better understand how to manage their diabetes. By helping people with diabetes implement lasting lifestyle changes, this partnership underscores our commitment to transforming diabetes care, together, for greater freedom and better health."
Maintaining and tracking glucose levels is critical to effectively managing diabetes. For people living with type 2 diabetes, understanding how exercise affects glucose levels is a critical element to proper glucose management and long-term health. Additionally, many patients are manually tracking and recording their physical activity, requiring them to recall and communicate that information to their physician from memory. The iPro2 myLog mobile app will allow type 2 diabetes patients to easily combine data generated by their Fitbit activity tracker and Medtronic's iPro2 professional CGM system, eliminating the need to enter physical activity data manually, and providing a clear understanding of how exercise impacts glucose levels. MyLog will simplify the sharing of information with a patient's healthcare team, facilitating productive discussions about care and the benefits of exercise on diabetes management.
"We believe the integration of wearable technology with professional diagnostic tools can provide a more accurate and actionable view of a patient's physical activity," said Adam Pellegrini, vice president of Digital Health for Fitbit. "By partnering with Medtronic, we are able to bring the power of Fitbit's automatic activity tracking together with continuous glucose monitoring, allowing patients and providers to have a more informed conversation."
About the iPro2 System
MyLog is currently available for Android and iOS smartphones for patients undergoing evaluation with Medtronic's iPro2 professional CGM system.
About Fitbit, Inc. (www.fitbit.com)
Fitbit and the Fitbit logo are trademarks or registered trademarks of Fitbit, Inc. in the US and other countries. Additional Fitbit trademarks can be found at www.fitbit.com/legal/trademark-list. Third-party trademarks are the property of their respective owners.
About the Diabetes Group at Medtronic (www.medtronicdiabetes.com)
Any forward-looking statements are subject to risks and uncertainties such as those described in Medtronic's periodic reports on file with the Securities and Exchange Commission. Actual results may differ materially from anticipated results.