Company Filing History:
Years Active: 2020
Title: Ahmed Shaffie: Innovator in Radiation Injury Detection
Introduction
Ahmed Shaffie is a notable inventor based in Louisville, KY (US). He has made significant contributions to the field of medical imaging and radiation therapy. His work focuses on improving the detection and assessment of radiation-induced lung injuries, which is crucial for patient care following radiation therapy.
Latest Patents
Ahmed Shaffie holds a patent for an innovative system titled "Accurate detection and assessment of radiation induced lung injury based on a computational model and computed tomography imaging." This patent describes a method that utilizes 4D computed tomography (CT) scans to identify lung injuries caused by radiation therapy. The process involves deformable image registration, which aligns consecutive phases of the respiratory cycle. It segments lung fields, extracts functional and textural features, and classifies lung tissues. The method integrates an adaptive shape prior and a first-order intensity model to enhance the accuracy of lung field segmentation. Additionally, it employs a novel 7-order contrast-offset-invariant Markov-Gibbs random field (MGRF) to estimate specific regional textural features. This innovative approach ultimately aids in distinguishing between injured and normal lung tissues.
Career Highlights
Ahmed Shaffie is affiliated with the University of Louisville Research Foundation, Inc., where he continues to advance his research in medical imaging. His work has the potential to significantly impact the treatment and management of patients undergoing radiation therapy.
Collaborations
Ahmed has collaborated with esteemed colleagues, including Ayman Sabry El-Baz and Ahmed Soliman, to further enhance the research and development of his innovative methods.
Conclusion
Ahmed Shaffie's contributions to the field of radiation injury detection exemplify the importance of innovation in medical technology. His patented methods are paving the way for improved patient outcomes in radiation therapy.