Company Filing History:
Years Active: 2018
Title: Innovations in Surgical Navigation by Per Klype
Introduction
Per Klype is an accomplished inventor based in Phoenix, AZ, known for his contributions to medical technology. He has developed innovative solutions that enhance the accuracy and effectiveness of surgical navigation systems. His work is particularly significant in the field of error correction techniques, which are crucial for improving patient outcomes during surgical procedures.
Latest Patents
Klype holds a patent for a groundbreaking medical system that focuses on error correction techniques in surgical navigation. This system includes a sensor location module, a first module, and a second module. The sensor location module determines the location of a magnetic field sensor within a magnetic field. The first module is responsible for determining the acceleration of the magnetic field sensor. The second module indicates a modified location of the magnetic field sensor in an image of a medical patient based on the acceleration and one or more previously determined locations. This patent showcases Klype's innovative approach to enhancing surgical precision.
Career Highlights
Throughout his career, Per Klype has made significant strides in the medical technology sector. He is currently employed at Medtronic, Inc., a leading company in the field of medical devices. His work at Medtronic has allowed him to collaborate with other talented professionals and contribute to the development of advanced medical solutions.
Collaborations
Klype has worked alongside notable colleagues, including Randal C. Schulhauser and Paul F. Gerrish. These collaborations have fostered an environment of innovation and creativity, leading to the development of cutting-edge technologies in surgical navigation.
Conclusion
Per Klype's contributions to the field of surgical navigation through his innovative patent demonstrate his commitment to improving medical technology. His work not only enhances surgical precision but also has the potential to significantly impact patient care.