Company Filing History:
Years Active: 2012
Title: The Innovations of Laurent Rapillard
Introduction
Laurent Rapillard is a notable inventor based in Fully, Switzerland. He has made significant contributions to the field of biomaterials, particularly in the area of tissue augmentation. His innovative work has led to the development of a patent that addresses critical needs in medical applications.
Latest Patents
Laurent Rapillard holds a patent for "Compositions for tissue augmentation." This patent describes methods for creating biomaterials designed for the augmentation of both soft and hard tissues. The biomaterials are formed from at least two precursor components, where the first precursor contains at least two nucleophilic groups, and the second contains at least two electrophilic groups. These components form covalent linkages at physiological temperatures, allowing for the desired properties of the biomaterial to be achieved. In the preferred embodiment, the first precursor is a siloxane, and the biomaterials may also include additives such as thixotropic agents, radiopaque agents, or bioactive agents. Notably, these biomaterials are intended for use in augmenting vertebrae of the spine, a procedure known as vertebroplasty.
Career Highlights
Laurent Rapillard is associated with Kuros Biosurgery AG, a company that focuses on innovative solutions in the field of surgery and tissue regeneration. His work at Kuros has been instrumental in advancing the development of biomaterials that can significantly improve patient outcomes in surgical procedures.
Collaborations
Laurent has collaborated with notable colleagues, including Aaldert Rens Molenberg and Enrico Zamparo. These collaborations have fostered an environment of innovation and have contributed to the successful development of new technologies in the field of biomaterials.
Conclusion
Laurent Rapillard's contributions to the field of biomaterials through his patent and work at Kuros Biosurgery AG highlight his role as an influential inventor. His innovative approaches to tissue augmentation are paving the way for advancements in medical treatments.