Company Filing History:
Years Active: 2024
Title: Innovations in X-ray Imaging by Fabio Mattana
Introduction
Fabio Mattana is an accomplished inventor based in Versailles, France. He has made significant contributions to the field of medical imaging, particularly in enhancing the quality of x-ray images. His innovative approach addresses common challenges faced in x-ray imaging, leading to improved diagnostic capabilities.
Latest Patents
Fabio Mattana holds a patent for a method and systems for removing anti-scatter grid artifacts in x-ray imaging. This patent outlines various methods and systems that enhance x-ray imaging quality. In one embodiment, the method involves acquiring an x-ray image of a subject using an x-ray detector. It then determines a transformation that minimizes anti-scatter grid artifacts in the x-ray image. The x-ray image is corrected according to this transformation to generate a corrected image, which is subsequently outputted. This innovation effectively reduces artifacts that arise from misalignment of an anti-scatter grid during calibration and acquisition.
Career Highlights
Fabio is currently associated with GE Precision Healthcare LLC, where he continues to develop and refine technologies that improve medical imaging. His work is pivotal in advancing the capabilities of x-ray imaging systems, making them more reliable and effective for medical professionals.
Collaborations
Fabio collaborates with talented individuals in his field, including Ludovic Boilevin Kayl and Vincent Jonas Bismuth. These collaborations foster an environment of innovation and creativity, leading to groundbreaking advancements in medical imaging technology.
Conclusion
Fabio Mattana's contributions to x-ray imaging technology exemplify the impact of innovative thinking in healthcare. His patent for removing anti-scatter grid artifacts represents a significant step forward in improving diagnostic imaging quality. Through his work at GE Precision Healthcare LLC and collaborations with fellow professionals, he continues to push the boundaries of what is possible in medical imaging.