Location History:
- Aulnay-sous-Bois, FR (1977 - 1980)
- Saint Mande, FR (1984 - 1989)
Company Filing History:
Years Active: 1977-1989
Title: **The Innovative Mind of Jean Lautrou**
Introduction
Jean Lautrou, an accomplished inventor based in Aulnay-sous-Bois, France, has made significant contributions to the field of medical imaging with a total of 10 patents to his name. His work primarily focuses on developing advanced diagnostic techniques that enhance image quality and patient safety in X-ray procedures.
Latest Patents
Among his recent innovations are several groundbreaking patents. One of his notable patents includes the "Lysine salt of the gadolinium-dota complex and its diagnostic applications." This invention signifies a leap forward in contrast media for X-ray imaging. Another patent, "Process for increasing the tolerance of X-ray contrast media," addresses the critical need for media that is more tolerable for human use. Additionally, his work on "X-ray contrast media, for which the human body has a greater tolerance than that of contrast media comprising solely iodobenzene compounds," illustrates a sophisticated blend of nuclearly substituted benzene compounds to improve patient experience.
Career Highlights
Lautrou's career is marked by his association with prominent companies such as Laboratoires André Guerbet and Guerbet S.A. Throughout his tenure at these organizations, he has been at the forefront of developing safer and more effective diagnostic tools.
Collaborations
Collaboration has been a key component of Lautrou's success. He has worked alongside notable colleagues, including Guy Tilly and Michel Jean Hardouin. Their joint efforts have pushed the boundaries of innovation in the medical imaging sector, leading to advancements that benefit both practitioners and patients.
Conclusion
Jean Lautrou's inventive spirit and dedication to improving medical imaging technologies have solidified his status as a significant contributor in his field. His patents reflect a commitment to enhancing patient safety and diagnostic accuracy, setting a standard for future innovations in the medical imaging landscape.