Luc Polverelli

Title: Luc Polverelli: Innovator in Implantable Pump Systems

Introduction

Luc Polverelli is a prominent inventor based in Paris, France. He has made significant contributions to the field of medical devices, particularly in the development of implantable pump systems. With a total of three patents to his name, Polverelli's work focuses on enhancing the performance and efficiency of left ventricular assist devices (LVADs).

Latest Patents

One of Luc Polverelli's latest patents is an implantable pump system featuring an undulating membrane designed to improve hydraulic performance. This innovative system includes an implantable pump, a battery, a controller, and a programmer. The pump is equipped with a flexible membrane that is coupled to an actuator assembly via a skirt, which guides blood toward the outlet. The actuator assembly is magnetically engageable with electromagnetic coils. When energized, the coils cause wavelike undulations to propagate along the flexible membrane, effectively propelling blood from the inlet through the outlet. The controller can be programmed to operate at frequencies and duty cycles that mimic physiological flow rates and pulsatility, while also preventing thrombus formation, hemolysis, and platelet activation.

Career Highlights

Luc Polverelli is currently associated with Corwave SA, a company dedicated to advancing medical technologies. His work at Corwave has been instrumental in the development of innovative solutions for patients requiring mechanical circulatory support.

Collaborations

Some of Luc Polverelli's notable coworkers include Leopold Maine and Carl N Botterbusch. Their collaborative efforts contribute to the ongoing advancements in the field of implantable medical devices.

Conclusion

Luc Polverelli's contributions to the field of implantable pump systems highlight his commitment to improving patient care through innovative technology. His patents reflect a deep understanding of both engineering and medical needs, positioning him as a key figure in the advancement of LVAD systems.