Company Filing History:
Years Active: 2017-2019
Title: Innovations by Antoine Collet Billon in Fetal Heart Evaluation
Introduction
Antoine Collet Billon is a notable inventor based in Eindhoven, Netherlands. He has made significant contributions to the field of ultrasound technology, particularly in the evaluation of fetal heart conditions. With a total of 2 patents, his work has the potential to enhance prenatal care and improve outcomes for expectant mothers and their babies.
Latest Patents
One of Antoine's latest patents focuses on the "Automatic positioning of standard planes for real-time fetal heart evaluation." This innovative ultrasound system and method allow for the simultaneous acquisition of standard views of the fetal heart while providing real-time imaging. A matrix array probe is manipulated until a first standard view, such as a 4-chamber view, is acquired. The first standard view image is then matched to its corresponding plane in a fetal heart model. From this matched plane, the orientations of other standard views are determined based on the geometrical relationships of structures within the heart model. This orientation information is utilized to control the matrix array probe, enabling it to automatically scan all standard views simultaneously in real-time.
Career Highlights
Antoine Collet Billon is currently employed at Koninklijke Philips Corporation N.V., a leading company in health technology. His work at Philips has allowed him to focus on developing advanced ultrasound systems that can significantly improve fetal heart evaluations.
Collaborations
Antoine has collaborated with notable colleagues, including James Robertson Jago and Alasdair Dow. Their combined expertise has contributed to the advancement of ultrasound technology and its applications in prenatal care.
Conclusion
Antoine Collet Billon's innovations in ultrasound technology, particularly in fetal heart evaluation, demonstrate his commitment to improving healthcare outcomes. His patents reflect a significant advancement in the field, showcasing the potential for real-time imaging to enhance prenatal diagnostics.