Company Filing History:
Years Active: 2019
Title: Innovations in Volumetric Imaging: The Contributions of Sarah Ouadah
Introduction
Sarah Ouadah is an accomplished inventor based in Baltimore, MD (US). She has made significant contributions to the field of imaging technology, particularly in volumetric image reconstruction. Her innovative work has the potential to enhance the quality and efficiency of medical imaging systems.
Latest Patents
Sarah Ouadah holds a patent for her invention titled "Self-calibrating projection geometry for volumetric image reconstruction." This invention is directed to a method that enables volumetric image reconstruction from unknown projection geometry of tomographic imaging systems, including CT, cone-beam CT (CBCT), and tomosynthesis systems. The invention allows for image reconstruction in scenarios where it was previously unfeasible, such as custom-designed trajectories on robotic C-arms or systems utilizing uncalibrated geometries. It offers improved image quality, including enhanced spatial resolution and reduced streak artifacts, while also providing robustness to patient motion through inherent compensation for rigid motion. The method accurately estimates the complete geometric description of each projection acquired during a scan by simulating various poses of the x-ray source and detector.
Career Highlights
Sarah Ouadah's career is marked by her dedication to advancing imaging technologies. She has successfully developed methods that improve the accuracy and reliability of medical imaging, which is crucial for effective diagnosis and treatment. Her work has garnered attention in the medical community, highlighting her role as a leading innovator in this field.
Collaborations
Sarah has collaborated with notable professionals in her field, including Jeffrey H. Siewerdsen and Yoshito Otake. These collaborations have further enriched her research and contributed to the development of her innovative solutions.
Conclusion
In summary, Sarah Ouadah's contributions to volumetric imaging through her patented invention demonstrate her commitment to improving medical imaging technologies. Her work not only enhances image quality but also addresses challenges in patient motion and imaging workflows.