Megan Poorman

Title: Megan Poorman: Innovator in Magnetic Resonance Fingerprinting Thermometry

Introduction

Megan Poorman is a notable inventor based in Boulder, Colorado. She has made significant contributions to the field of medical imaging through her innovative work in magnetic resonance fingerprinting thermometry. Her research focuses on developing methods for accurate temperature quantification using advanced magnetic resonance techniques.

Latest Patents

Megan Poorman holds a patent for a method titled "Magnetic Resonance Fingerprinting Thermometry." This invention involves acquiring magnetic resonance fingerprinting (MRF) data from a specific region of interest in a subject. The method utilizes an MRF pulse sequence with smoothly varying RF phase for MR resonant frequencies that is played out continuously. During the acquisition of MRF data, the method compares the data associated with various time intervals to an MRF dictionary. This comparison allows for the determination of at least one quantitative parameter of the acquired MRF data. Subsequently, a temperature change is calculated based on this parameter, leading to the generation of a quantitative map of the temperature change in the region of interest, which can include both aqueous and adipose tissue.

Career Highlights

Throughout her career, Megan has worked with prestigious institutions such as Case Western Reserve University and the University of Colorado. Her work has been instrumental in advancing the understanding and application of magnetic resonance technologies in medical diagnostics.

Collaborations

Megan has collaborated with talented individuals in her field, including Kathryn Keenan and Rasim Boyacioglu. These partnerships have contributed to her innovative research and the successful development of her patented technology.

Conclusion

Megan Poorman's contributions to magnetic resonance fingerprinting thermometry exemplify her dedication to innovation in medical imaging. Her work not only enhances temperature quantification methods but also paves the way for future advancements in the field.