Teri Moore

Title: Teri Moore: Innovating Aneurysm Assessment with X-Ray Technology

Introduction: Teri Moore is an accomplished inventor based in Palo Alto, California, renowned for her innovative contributions to the field of medical imaging. With one significant patent to her name, Teri is making strides in enhancing the assessment of aneurysm pulsation, potentially reducing complications associated with ruptured aneurysms.

Latest Patents: Teri's patent, titled "System and method for X-ray based assessment of aneurysm pulsation," presents a cutting-edge method for evaluating the rupture risk of an aneurysm using time-resolved imaging. This technology involves the injection of a contrast-enhancing agent into the patient, utilising an electrocardiogram (ECG) signal to synchronize image acquisition. The process includes capturing a series of 2D X-ray fluoroscopic images from a rotating viewpoint during a specified time window of the cardiac cycle, ultimately constructing detailed 3D angiography image volumes of the aneurysm.

Career Highlights: Teri currently works at Siemens Medical Solutions USA, Inc., where she applies her expertise in medical imaging to develop advanced diagnostic tools. Her commitment to innovation within the medical field is reflected in her successful patent, which showcases her ability to bridge technology and healthcare.

Collaborations: Throughout her career, Teri has collaborated with notable colleagues, including Andrew F. Hall and Ashraf Mohamed. Their combined efforts in research and development have contributed significantly to the advancements in medical imaging techniques and patient care.

Conclusion: Teri Moore stands out as a pioneering inventor in the field of medical technology. Her patent for assessing aneurysm pulsation through advanced X-ray methodologies exemplifies her dedication to improving patient outcomes. As she continues to innovate at Siemens Medical Solutions USA, her contributions are likely to play a vital role in enhancing medical diagnostics and treatment protocols in the future.