Monday, December 23, 2024

Axogen, Inc Announces Full Launch of Avive+ Soft Tissue Matrix™

Axogen, Inc, a global leader in developing and marketing innovative surgical solutions for peripheral nerve injuries, announces the launch of its newest product, Avive+ Soft Tissue Matrix™. Avive+™ is intended for use as a soft tissue barrier and is a resorbable, multi-layer amniotic membrane allograft that provides temporary protection and tissue separation during the critical phase of peripheral nerve healing. Avive+ is processed and distributed in accordance with U.S. Food and Drug Administration (FDA) requirements for Human Cellular and Tissue-based Products (HCT/P) under 21 CFR Part 1271 regulations, U.S. State regulations as a 361 human tissue product.

“Product innovation is integral to our mission at Axogen,” stated Karen Zaderej, Chairman, CEO, and President. “With the introduction of Avive+ Soft Tissue Matrix, we are excited to enhance our comprehensive solutions for nerve protection and address a significant need for patients with compression or non-transected nerve injuries.”

Also Read: Vir Biotechnology Appoints Mark Eisner, M.D., M.P.H. as Chief Medical Officer

Nerve protection represents approximately $800 million of the overall nerve repair market and covers a wide range of injuries and defects including carpal and cubital tunnel syndromes, crush injuries, and other non-transected traumatic nerve injuries. The diversity of these injury types and their anatomical locations present unique challenges and Axogen is committed to optimizing outcomes for patients, using its targeted portfolio of solutions to address the needs of each injury type, and the healing process. Avive+ Soft Tissue Matrix complements the Company’s existing portfolio of nerve protection products, which includes Axoguard Nerve Protector® and Axoguard HA+ Nerve Protector™.

“As a hand surgeon, I’ve seen the positive impact of using Avive+ Soft Tissue Matrix,” stated Sunishka Wimalawansa, MD, Associate Professor of Orthopedic and Plastic Surgery at Wright State University in Dayton, OH. “The multi-layer design provides ideal handling, a robust barrier that retains the inherent properties of an amniotic membrane, and most importantly, the opportunity to improve patient outcomes after acute traumatic injury.”

SOURCE: GlobeNewswire

Subscribe Now

    Hot Topics