Company Filing History:
Years Active: 1988
Title: Janice E. Hahn: Innovator in Magnetic Resonance Imaging
Introduction
Janice E. Hahn is a notable inventor based in Solon, Ohio, recognized for her contributions to the field of magnetic resonance imaging (MRI). With a focus on enhancing imaging techniques, she has developed innovative solutions that improve the quality and accuracy of MRI scans. Her work has significant implications for medical imaging and diagnostics.
Latest Patents
Janice E. Hahn holds a patent for "Magnetic resonance imaging with phase encoded chemical shift correction." This invention involves a shimming magnetic field control that enhances the uniformity of the main magnetic field generated by main magnets. The technology includes a resonance excitation control that selectively applies resonance excitation and inversion pulses to manipulate the spin magnetization of water and lipid dipoles. The invention also features a phase-sensitive detector that transforms resonance signal components into real and imaginary images, allowing for improved image clarity and accuracy. The patent addresses geometric distortion in MRI images, providing a method for correcting these distortions to enhance diagnostic capabilities.
Career Highlights
Janice E. Hahn has made significant strides in her career, particularly through her work at Picker International, Inc. Her innovative approach to MRI technology has positioned her as a leader in the field. With a focus on research and development, she has contributed to advancements that benefit both medical professionals and patients.
Collaborations
Throughout her career, Janice has collaborated with esteemed colleagues, including John L. Patrick III and E. Mark Haacke. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Janice E. Hahn's contributions to magnetic resonance imaging exemplify her dedication to advancing medical technology. Her innovative patent and collaborative efforts highlight her role as a key figure in the field. Through her work, she continues to impact the future of medical imaging and diagnostics.