Company Filing History:
Years Active: 2023
Title: Innovations by James L Rumpca in Surgical Heart Valves
Introduction
James L Rumpca is an accomplished inventor based in Ramsey, MN (US). He has made significant contributions to the field of medical devices, particularly in the development of prosthetic heart valves. His innovative work has led to the creation of a patent that enhances the functionality and accuracy of surgical heart valves.
Latest Patents
James L Rumpca holds a patent for "Radiopaque elements for surgical heart valves." This invention includes a prosthetic heart valve featuring a stent structure that forms a plurality of commissure posts. The valve structure is supported by the stent structure, along with a base that supports the stent structure. A key aspect of this patent is the inclusion of at least one radiopaque element positioned around the base. The radiopaque element can consist of a band that extends around the base, which may be coiled in some embodiments. Additionally, the band can include a badge with an indicator that specifies properties of the valve and is viewable under fluoroscopy. This innovation significantly increases the ease and accuracy of positioning a percutaneously delivered replacement valve within a previously implanted valve.
Career Highlights
James L Rumpca is currently employed at Medtronic, Inc., a leading company in the medical technology sector. His work at Medtronic has allowed him to focus on developing advanced solutions for heart valve surgeries. His dedication to innovation in this field has made a positive impact on patient outcomes.
Collaborations
James has collaborated with talented coworkers, including Molly Anne Berringer and Matthew W Weston. Their combined expertise contributes to the success of their projects and the advancement of medical technology.
Conclusion
James L Rumpca's contributions to the field of surgical heart valves exemplify the importance of innovation in medical technology. His patent for radiopaque elements enhances the precision of heart valve placement, ultimately benefiting patients undergoing such procedures.