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ALAMEDA, Calif., December 04, 2024--(BUSINESS WIRE)--Vivani Medical, Inc. (NASDAQ: VANI) (the "Company" or "Vivani"), an innovative biopharmaceutical company developing miniaturized, ultra long-acting drug implants, announced today that CEO Adam Mendelsohn, Ph.D., will present and participate in a panel discussion at the Innovation in Obesity Therapeutics Summit West Coast, taking place in San Diego, California, from December 10-12, 2024.

Event details are as follows:

Panel Discussion: The Obesity Race on the Manufacturing Floor – Exploring Supply Challenges with Innovations in Discovery
Panel Date: Wednesday, December 11, 2024
Panel Time: 2:40 pm, Pacific Time

Dr. Mendelsohn will be joined by Feng Liu, Executive Director at Regor Therapeutics, and David Bearss, co-founder and Chairman at Biolexis Therapeutics, in a panel discussion of supply chain challenges for GLP-1 drugs and the innovative solutions that are being explored to address these issues.

Presentation: Advancing Chronic Disease Management with Ultra Long-Acting Miniature Subdermal Implants of GLP-1
Presentation Date: Wednesday, December 11, 2024
Presentation Time: 4:20pm, Pacific Time

In this session, Dr. Mendelsohn will provide an overview of Vivani’s emerging portfolio of miniature, drug implant candidates designed to revolutionize the treatment of chronic diseases by leveraging the company’s proprietary NanoPortal™ implant technology. The Company’s lead program, NPM-119, is a six-month GLP-1 (exenatide) implant in development for chronic weight management. Clinical data from LIBERATE-1, the first-in-human, study in obese and overweight individuals, is expected in 2025. These ultra long-acting implants are designed for once or twice-yearly dosing and directly address main [major] challenges to optimal treatment, including poor medication adherence and potentially poor patient tolerability.

More information about Innovation in Obesity Therapeutics Summit West Coast can be found at https://innovation-obesity-summit.com/.

About Vivani Medical, Inc.

Leveraging its proprietary NanoPortal™ platform, Vivani develops biopharmaceutical implants designed to deliver drug molecules steadily over extended periods of time with the goal of guaranteeing adherence, and potentially to improve patient tolerance to their medication. Vivani’s lead program, NPM-115, utilizes a miniature, six-month, subdermal, GLP-1 (exenatide) implant under development for chronic weight management in obese or overweight individuals. Vivani’s emerging pipeline also includes the NPM-139 (semaglutide implant) which is also under development for chronic weight management in obese and overweight individuals. The semaglutide implant has the added potential benefit of once-yearly administration. NPM-119 refers to the Company’s type 2 diabetes development program utilizing a six-month, subdermal exenatide implant. Both the NPM-115 and NPM-119 programs utilize exenatide-based products with a higher-dose associated with the NPM-115 program for chronic weight management in obese or overweight patients. These NanoPortal™ implants are designed to provide patients with the opportunity to realize the full potential benefit of their medication by avoiding the challenges associated with the daily or weekly administration of orals and injectables. Medication non-adherence occurs when patients do not take their medication as prescribed. This affects an alarming number of patients, approximately 50%, including those taking daily pills. Medication non-adherence, which contributes to more than $500 billion in annual avoidable healthcare costs and 125,000 potentially preventable deaths annually in the U.S. alone, is a primary and daunting reason obese or overweight patients, and patients taking type 2 diabetes or other chronic disease treatments face significant challenges in achieving positive real-world effectiveness. While the current GLP-1 landscape includes over 50 new molecular entities under clinical stage development, Vivani remains confident that its highly differentiated portfolio of miniature long-acting GLP-1 implants have the potential to provide an attractive therapeutic option for patients, prescribers and payers.