Company Filing History:
Years Active: 2002-2012
Title: Karyl L Stapert: Innovator in Cardiac Surgery Technology
Introduction
Karyl L Stapert is a prominent inventor based in Grand Rapids, MI (US). She has made significant contributions to the field of cardiac surgery through her innovative designs and methods. With a total of 3 patents, her work focuses on improving surgical techniques and patient outcomes.
Latest Patents
One of her latest patents is the Oval-shaped cardiac cannula. This invention provides a method for performing minimally invasive cardiac surgery by creating a smaller access aperture into a patient's chest cavity compared to traditional incisions. The cannula features an oval portion with a longer major axis and a shorter minor axis, allowing it to be inserted through the access aperture effectively.
Another notable patent is the Flexible disc obturator for a cannula assembly. This obturator includes an elongate member and a flexible disc, designed to restrict fluid flow through the lumen of the cannula. The cannula has a circular cross-section at its distal end, with a first portion that has a non-circular cross-section and at least one fluid aperture formed adjacent to the distal end. This innovative design enhances the functionality of the cannula during surgical procedures.
Career Highlights
Karyl L Stapert has established herself as a key figure in the medical device industry, particularly in cardiac surgery. Her work at Medtronic, Inc. has allowed her to collaborate with other talented professionals and contribute to advancements in surgical technology.
Collaborations
Throughout her career, Karyl has worked alongside notable colleagues such as Roderick E Briscoe and Paul F Rom. These collaborations have further enriched her experience and expertise in the field.
Conclusion
Karyl L Stapert's innovative contributions to cardiac surgery technology demonstrate her commitment to improving patient care. Her patents reflect her dedication to advancing surgical techniques and enhancing the effectiveness of medical devices.