Company Filing History:
Years Active: 2022
Title: **Innovative Contributions of Inventor Kate Jensen in Medical Devices**
Introduction
Kate Jensen is an inventive mind based in Minneapolis, MN, who has made notable contributions to the field of medical devices. As a dedicated professional at Cardiac Pacemakers, Inc., she has focused her efforts on developing innovative solutions that enhance the functionality and usability of medical equipment.
Latest Patents
Kate holds a significant patent for her invention titled "Lubricous Silicone." This patent outlines a method for creating an insertable or implantable medical device that features a lubricous coating on a silicone substrate. The methodology involves treating the silicone substrate with atmospheric plasma formed from a noble gas, applying a thermoplastic polyurethane solution directly onto the treated silicone substrate, and subsequently heating the coated substrate to achieve the desired lubricous finish. This innovation is designed to improve the performance and comfort of medical devices in clinical applications.
Career Highlights
Prior to her advancements in the medical device sector, Kate Jensen demonstrated a profound commitment to research and development. Her endeavors at Cardiac Pacemakers, Inc. have led to her holding one patent, contributing significantly to her field. Her work is characterized by a strong emphasis on improving patient care through innovative product development.
Collaborations
Throughout her career, Kate has collaborated with talented professionals, including Danielle Frankson and Joel T. Eggert. These partnerships have facilitated a creative exchange of ideas, ultimately leading to the enhancement of medical device design processes and outcomes. Working with such skilled colleagues showcases her dedication to teamwork and innovation.
Conclusion
Kate Jensen's contributions to the medical device industry through her invention of lubricous silicone underscore her role as an influential inventor. Her work at Cardiac Pacemakers, Inc. serves as an example of how innovation in medical technology can lead to improved patient outcomes and enhanced device performance. As she continues to pave the way for advancements in this critical field, Kate's future contributions are highly anticipated.