Company Filing History:
Years Active: 2015-2017
Title: Jim Homuth: Innovator in Medical Ventilation Technologies
Introduction
Jim Homuth is a notable inventor based in Corcoran, Minnesota, known for his contributions to medical technology through innovations in respiratory systems. With a total of two patents to his name, Jim has made significant strides in enhancing the efficiency and safety of gas flow regulation in patients requiring respiratory support.
Latest Patents
Jim's latest patent is a groundbreaking "CPR volume exchanger valve system with safety feature and methods." This invention describes a method for regulating gas flows into and out of a patient, which involves repetitively forcing respiratory gases out of the lungs. The process prevents respiratory gases from re-entering the lungs during intervals when gases are expelled, and it periodically supplies an oxygen-containing gas to the patient’s lungs. This innovative approach aims to improve the efficacy of CPR and respiratory assistance, making it a vital advancement in emergency medicine.
Career Highlights
Jim is currently employed at Advanced Circulatory Systems, Inc., a company dedicated to advancing technologies in circulatory and respiratory care. His work focuses on developing solutions that enhance patient outcomes during critical care situations. His expertise in the field of medical device innovation has positioned him as a leading figure in the creation of life-saving technologies.
Collaborations
Throughout his career, Jim has collaborated with talented professionals such as Keith G. Lurie and Anja Metzger. These partnerships have fostered an environment of innovation and creativity, allowing for the development of new technologies that can save lives and improve patient care.
Conclusion
Jim Homuth’s innovative work, particularly in the field of gas flow regulation for respiratory support, demonstrates his commitment to improving medical technologies. His patents reflect a thoughtful approach to solving real-world medical challenges, making a noteworthy impact in the field and enhancing the quality of care for patients in critical conditions.