Laboratori Nazionali di Frascati - INFN | Brazil
Author Profile
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Early Academic Pursuits
Dr. Alessandra Perez began her academic career at the University of Sao Paulo, Ribeirao Preto, where she earned a Bachelor’s degree in Medical Physics in 2012. Her interest in the application of physics to medical technology led her to pursue a Master’s degree from 2012 to 2015, during which she conducted an experimental study on optimizing CR and DR digital mammography systems. Building on her previous studies, Dr. Perez completed her PhD in Physics Applied to Medicine and Biology in 2023, focusing her dissertation on the characterization of digital mammography systems. This comprehensive academic background laid a strong foundation for her future contributions to the field of medical physics.
Professional Endeavors
Dr. Perez’s professional endeavors reflect a combination of rigorous academic research and practical teaching experience. From 2022 to 2024, she served as a virtual learning facilitator at the Virtual University of Sao Paulo, teaching courses such as Basic Mathematics, General Physics, and Calculus I. In addition to her virtual teaching roles, she was involved in the Teaching Improvement Program at the University of Sao Paulo, where she contributed to the disciplines of Radiodiagnostics and Dosimetry. These roles not only demonstrate her expertise in medical physics but also her commitment to educating the next generation of scientists.
Contributions and Research Focus
Dr. Perez has made significant contributions to medical physics, particularly in the optimization and characterization of digital mammography systems. Her research projects have been funded by prestigious organizations such as CAPES (Brazil) and ICTP (Italy). From 2017 to 2023, she conducted a detailed technical characterization of six clinical digital mammography systems, focusing on parameters like spatial resolution, noise power spectrum, and detective quantum efficiency. More recently, her research has expanded to high-resolution X-ray imaging and tomography, where she investigates phase contrast imaging techniques to enhance the sensitivity of X-rays in detecting weakly absorbing objects. This research, conducted at the XLab-Frascati, utilizes advanced equipment like a microfocus source and a CCD detector to push the boundaries of medical imaging technology.
Accolades and Recognition
Dr. Perez’s research has garnered significant recognition in the scientific community. She has published numerous papers in esteemed journals such as Radiation Physics and Chemistry and Radiation Measurements. Her notable publications include studies on the performance evaluation of digital mammography systems, the quantitative assessment of mammography digital detectors, and the characterization of digital systems used in medical X-ray imaging. These publications highlight her expertise and the impact of her research on improving diagnostic imaging technologies.
Impact and Influence
Dr. Perez’s work has had a profound impact on the field of medical physics, particularly in the realm of digital mammography. Her research on optimizing imaging systems has contributed to improved diagnostic accuracy, which is crucial for early detection of diseases like breast cancer. Additionally, her efforts in teaching and mentoring have helped cultivate a new generation of medical physicists who are well-equipped to further advance the field. Her influence extends beyond research, as she actively participates in academic conferences and training programs, sharing her knowledge and insights with a broader audience.
Legacy and Future Contributions
Dr. Perez’s legacy is defined by her dedication to advancing medical imaging technologies and her commitment to education. As she continues her career, her ongoing research on high-resolution X-ray imaging and tomography is expected to yield significant advancements in medical diagnostics. Dr. Perez’s work will undoubtedly continue to influence future research and clinical practices, contributing to the development of more precise and effective diagnostic tools. Her contributions to medical physics, both in research and education, ensure that her impact will be felt for many years to come.
Notable Publications
Quantitative assessment of signal and noise properties of mammography digital detectors 2024
Performance evaluation of six digital mammography systems 2024
Characterization of digital systems used in medical X-ray imaging 2022 (1)
Experimental evaluation of the image quality and dose in digital mammography: Influence of x-ray spectrum 2015 (7)