Jean-Luc Marienne

Title: Innovations by Jean-Luc Marienne

Introduction

Jean-Luc Marienne is a notable inventor based in Berck sur Mer, France. He has made significant contributions to the field of medical instrumentation, particularly in the area of surgical implants. With a total of two patents to his name, Marienne's work reflects a commitment to improving surgical techniques and patient outcomes.

Latest Patents

One of Marienne's latest patents is the "Occipito-cervical osteosynthesis instrumentation." This innovative instrumentation comprises two separate parts, each formed by a cervical rod with asperities and an elongate occipital plate. The design allows for adjustable anchoring of the rod to the vertebrae and the plate to the occiput, adapting conveniently to the patient's anatomy. This invention reduces the overall size of the instrumentation, minimizing projections under the skin of the occiput.

Another significant patent is the "Capped locking clamp for manipulation of surgical implants." This device features forceps with two pin-connected branches equipped with gripping noses for handling surgical implants. The branches are spring biased apart and include a cap that allows for the temporary locking of the branches together during manipulation. This design enhances the efficiency and safety of surgical procedures.

Career Highlights

Jean-Luc Marienne is associated with Sofamor S.n.c., a company known for its advancements in medical technology. His work at Sofamor has allowed him to focus on developing innovative solutions that address the challenges faced in surgical environments.

Collaborations

Marienne has collaborated with notable colleagues, including Carlo Logroscino and Philippe Bancel. These partnerships have contributed to the development of groundbreaking medical devices and have fostered a collaborative environment for innovation.

Conclusion

Jean-Luc Marienne's contributions to medical instrumentation through his patents demonstrate his dedication to enhancing surgical practices. His innovative designs not only improve the efficiency of surgical procedures but also prioritize patient safety and comfort.