Company Filing History:
Years Active: 2018
Title: **Abigail Christian: Innovator in Bioprosthetic Tissues**
Introduction
Abigail Christian is an accomplished inventor based in Philadelphia, Pennsylvania, known for her groundbreaking work in bioprosthetic tissues. With a focus on developing oxidation-resistant materials, Abigail’s innovations aim to enhance the longevity and effectiveness of medical devices used in cardiac care.
Latest Patents
Abigail holds one significant patent titled "Oxidation Resistant Bioprosthetic Tissues and Preparation Thereof." This patent describes revolutionary methods for creating oxidation-resistant bioprosthetic tissues and heart valve leaflets. The methods include techniques for preventing oxidative degeneration in these tissues by immobilizing covalently an effective amount of an antioxidant, which serves to significantly increase the durability and functionality of bioprosthetic devices.
Career Highlights
Abigail Christian is currently affiliated with The Children's Hospital of Philadelphia, a leading institution in pediatric healthcare and innovation. Her work within this prestigious establishment allows her to engage in cutting-edge research that directly impacts patient care, particularly in the realm of cardiac treatments.
Collaborations
Throughout her career, Abigail has collaborated with notable colleagues including Robert J. Levy and Ivan Alferiev. These partnerships have likely fostered an environment of shared knowledge and expertise, contributing to the success of her projects and the advancement of bioprosthetic technologies.
Conclusion
In summary, Abigail Christian is a prominent inventor making meaningful contributions to the field of bioprosthetic materials. Her patent for oxidation-resistant tissues reflects a significant advancement that has the potential to improve the outcomes for patients requiring bioprosthetic interventions. Through her work at The Children's Hospital of Philadelphia and her collaborations, Abigail continues to pave the way for innovations in medical technology.