Company Filing History:
Years Active: 2012-2013
Title: Innovations in Bone Healing: The Contributions of Isabelle Arrighi
Introduction
Isabelle Arrighi is a prominent inventor based in Zurich, Switzerland. She has made significant contributions to the field of biomedical engineering, particularly in the development of innovative solutions for bone healing. With a total of two patents to her name, her work focuses on enhancing the treatment of bone fractures and defects.
Latest Patents
Isabelle Arrighi's latest patents include groundbreaking technologies aimed at improving bone repair. One of her patents describes supplemented matrices for the repair of bone fractures. These matrices incorporate PTH (Parathyroid Hormone) in a way that enhances healing, particularly for fractures that are at risk of delayed unions or non-unions. The matrices are designed to be biocompatible and biodegradable, allowing for in vitro or in vivo formation at the time of implantation.
Another patent focuses on the local treatment of specific bone defects, such as osteoporosis or bone cysts. This method involves the local administration of a formulation containing a fusion peptide linked to a biodegradable matrix. This innovative approach aims to treat various fluid-filled cysts effectively, showcasing her commitment to advancing medical treatments.
Career Highlights
Isabelle Arrighi is currently associated with Kuros Biosurgery AG, where she continues to develop her innovative ideas. Her work has garnered attention in the medical community, and she is recognized for her contributions to improving patient outcomes in bone healing.
Collaborations
Isabelle has collaborated with notable colleagues, including Jason Schense and John Watson. Their combined expertise has furthered the development of her innovative technologies.
Conclusion
Isabelle Arrighi's contributions to the field of bone healing through her patents and collaborative efforts highlight her role as a leading inventor in biomedical engineering. Her work not only advances scientific knowledge but also has the potential to significantly improve patient care in orthopedics.