Martin Paul Friederich Kramer

Title: Martin Paul Friederich Kramer: Innovator in Breathing Assistance Technology

Introduction

Martin Paul Friederich Kramer is a notable inventor based in Auckland, New Zealand. He has made significant contributions to the field of medical technology, particularly in the development of breathing assistance devices. With a total of 3 patents to his name, Kramer has focused on creating solutions that enhance patient care and improve the functionality of medical equipment.

Latest Patents

Kramer's latest patents include a groundbreaking breathing assistance apparatus. This invention provides a convenient and effective method for cleaning internal conduits within the apparatus. The device is designed as a gas supply and humidification system, which is essential for patients requiring respiratory support. The automated cleaning method minimizes the need for extensive training, allowing users to disinfect the internal elbow conduit without dismantling the device. This innovation not only simplifies maintenance but also prevents inadvertent damage to the internal components. Additionally, the invention includes methods for disinfecting heated breathing conduits and patient interfaces, further enhancing its utility in clinical settings.

Career Highlights

Kramer is currently associated with Fisher & Paykel Healthcare Limited, a company renowned for its commitment to improving patient outcomes through innovative medical devices. His work at this organization has allowed him to collaborate with other talented professionals in the field, contributing to advancements in respiratory care technology.

Collaborations

Some of Kramer's notable coworkers include Kevin Peter O'Donnell and Matthew Jon Payton. Their collective expertise and collaboration have played a crucial role in the development of innovative solutions in the healthcare sector.

Conclusion

Martin Paul Friederich Kramer stands out as a key figure in the realm of breathing assistance technology. His inventions not only address critical needs in patient care but also reflect a commitment to innovation and improvement in medical devices. His contributions continue to shape the future of respiratory support systems.