Company Filing History:
Years Active: 2023-2024
Title: Archana Rao: Innovator in Needleless Connector Technology
Introduction
Archana Rao, based in Los Angeles, California, is an accomplished inventor with a particular focus on medical device technology. With two patents to her name, she has made significant contributions to the field, particularly through her work in developing advanced needleless connectors. These innovations enhance patient safety and streamline clinical procedures.
Latest Patents
One of Archana's notable inventions is the "Needleless Connector with Valve Pivot Support." This device features a housing with a central longitudinal axis, a body portion, and a base portion. The design includes an inner surface that forms an internal cavity and allows for two distinct fluid passages. A key element of this invention is a valve that is coupled with the housing, which ensures that the connector operates seamlessly without the need for traditional needles. This innovation helps reduce the risk of needle-stick injuries and enhances the overall patient experience in healthcare settings.
Career Highlights
Archana Rao currently works at CareFusion 303, Inc., a firm that specializes in the development of innovative medical technologies. Throughout her career, she has demonstrated a commitment to improving healthcare solutions and has become a recognized figure in her field through her pioneering work.
Collaborations
Archana has worked alongside talented coworkers like Todd I Oda and Tomas Frausto. These collaborations have not only enriched her professional experience but have also contributed to the successful development of her innovative products.
Conclusion
With her two patents and ongoing work with CareFusion 303, Inc., Archana Rao stands out as a significant contributor to the medical device industry. Her innovations, particularly in needleless connector technology, highlight her dedication to improving patient care and safety in medical environments. As advancements in healthcare continue to evolve, Archana's contributions will undoubtedly leave a lasting impact on the field.