Cecile Limborg-Deprey

Title: Innovations in Hadron Therapy: The Contributions of Cecile Limborg-Deprey

Introduction

Cecile Limborg-Deprey is a notable inventor based in Palo Alto, CA, who has made significant contributions to the field of hadron therapy. With a focus on advancing medical technology, she has developed innovative solutions that enhance the effectiveness of cancer treatment. Her work is particularly relevant in the realm of high-speed RF beam scanning, which plays a crucial role in targeted therapies.

Latest Patents

Cecile Limborg-Deprey holds a patent for a "3D high speed RF beam scanner for hadron therapy." This groundbreaking system provides 3D scanning and rapid delivery of high doses of radiation. The technology includes a hadron source and accelerator equipped with an RF energy modulator and an RF deflector, which work together to achieve precise scanning of targeted tissues. The system is designed to utilize high-energy hadron sources, achieving a fixed energy of 200 MeV protons. This innovation allows for the full irradiation of a liter-scale tumor within one second or less, significantly improving treatment efficiency.

Career Highlights

Cecile Limborg-Deprey is affiliated with Leland Stanford Junior University, where she continues to push the boundaries of medical technology. Her work has garnered attention for its potential to revolutionize cancer treatment through enhanced precision and speed. With a patent portfolio that includes her innovative 3D scanning technology, she stands out as a leader in her field.

Collaborations

Cecile has collaborated with esteemed colleagues such as Sami G Tantawi and Emilio Nanni. These partnerships have further enriched her research and development efforts, contributing to the advancement of hadron therapy technologies.

Conclusion

Cecile Limborg-Deprey's contributions to hadron therapy exemplify the impact of innovation in medical technology. Her patented 3D high-speed RF beam scanner represents a significant advancement in cancer treatment, showcasing her dedication to improving patient outcomes. Through her work, she continues to inspire future innovations in the field.