Felix W Wehrli

Title: Innovations of Felix W Wehrli

Introduction

Felix W Wehrli is a notable inventor based in Shorewood, WI (US). He has made significant contributions to the field of magnetic resonance imaging and fluid flow measurement. With a total of 5 patents to his name, Wehrli's work has advanced the capabilities of medical imaging technologies.

Latest Patents

One of Wehrli's latest patents is a method for measuring and imaging fluid flow. This innovative technique employs a time-of-flight magnetic resonance pulse sequence to detect arterial flow in tissue images. By synchronizing the pulse sequence with the cardiac cycle and optimizing the interpulse interval, Wehrli's method allows for enhanced imaging of arterial flow. The process involves generating MR signal data that results in high-contrast images, highlighting areas of arterial flow.

Another significant patent is the method for rapid acquisition of NMR data. This method utilizes excitation pulses that rotate the longitudinal magnetization through an angle smaller than 90 degrees, creating a larger transverse magnetization component. By applying a series of RF pulses, the sequence repetition time is shortened, which effectively reduces the total data collection time. This method is applicable to various NMR imaging techniques, enhancing the efficiency of data acquisition.

Career Highlights

Felix W Wehrli has had a distinguished career, primarily working with General Electric Company. His innovative approaches to imaging and data acquisition have positioned him as a leader in his field. His contributions have not only advanced technology but have also improved diagnostic capabilities in medical settings.

Collaborations

Throughout his career, Wehrli has collaborated with esteemed colleagues such as James R MacFall and Ann Shimakawa. These partnerships have fostered a collaborative environment that has led to groundbreaking advancements in medical imaging.

Conclusion

Felix W Wehrli's contributions to the field of magnetic resonance imaging and fluid flow measurement have made a lasting impact. His innovative patents and collaborative efforts continue to shape the future of medical technology.