Company Filing History:
6 out of 1,747 
1 out of 3 Years Active: 1993-2016
Title: Michael K O'Connor: Innovator in Molecular Breast Imaging
Introduction
Michael K O'Connor is a prominent inventor based in Rochester, MN (US). He has made significant contributions to the field of molecular breast imaging, holding a total of 7 patents. His innovative work focuses on enhancing imaging techniques to improve cancer detection and analysis.
Latest Patents
Among his latest patents is a system and method for molecular breast imaging energy spectrum imaging and analysis. This invention provides a method for imaging a region of interest, specifically a breast that has received a reduced dose of radionuclide. The imaging system utilizes at least two gamma detectors to acquire data, which is then analyzed based on energy characteristics. The result is a composite image of the region of interest, generated from multiple processed images.
Another notable patent is the multi-segment slant hole collimator system and method for tumor analysis in radiotracer-guided biopsy. This system enhances tumor analysis and offers real-time biopsy guidance. It features a detector head with a gamma ray detector and a multisegment collimator that can be repositioned to improve imaging accuracy. This innovation allows for spatially separate image portions that provide detailed information about the same tissue area.
Career Highlights
Michael K O'Connor has worked with esteemed organizations such as the Mayo Foundation for Medical Education and Research and Medasys Incorporated. His experience in these institutions has contributed to his expertise in molecular imaging technologies.
Collaborations
Throughout his career, O'Connor has collaborated with notable colleagues, including Carrie B Hruska and Amanda L Weinmann. These partnerships have fostered advancements in the field of medical imaging.
Conclusion
Michael K O'Connor's contributions to molecular breast imaging demonstrate his commitment to innovation in healthcare technology. His patents reflect a dedication to improving diagnostic methods, ultimately benefiting patient care.