Lindsey Appenzoller

Title: Lindsey Appenzoller: Innovator in Radiotherapy Treatment

Introduction

Lindsey Appenzoller is a notable inventor based in St. Louis, MO (US). She has made significant contributions to the field of radiotherapy, particularly in developing predictive dose-volume relationships that enhance treatment efficacy. With a total of two patents to her name, her work is paving the way for advancements in cancer treatment.

Latest Patents

One of Lindsey's latest patents focuses on developing predictive dose-volume relationships for radiotherapy treatment. This innovative system includes a memory area for storing data corresponding to a plurality of patients. The data comprises a three-dimensional representation of the planning target volume and one or more organs-at-risk. Additionally, it includes the amount of radiation delivered to both the planning target volume and the organs-at-risk. The system is equipped with processors programmed to access this data and develop a model that predicts dose-volume relationships. This model is derived from correlations between dose-volume relationships and calculated minimum distance vectors between discrete volume elements of the organs-at-risk and the boundary surface of the planning target volume.

Career Highlights

Lindsey Appenzoller is affiliated with Washington University, where she continues to contribute to research and innovation in her field. Her work is instrumental in improving the precision of radiotherapy treatments, ultimately benefiting patient outcomes.

Collaborations

Some of her notable coworkers include Kevin L. Moore and Sasa Mutic, who collaborate with her on various projects related to radiotherapy and patient care.

Conclusion

Lindsey Appenzoller's innovative work in developing predictive dose-volume relationships for radiotherapy treatment exemplifies her commitment to advancing medical technology. Her contributions are vital in enhancing the effectiveness of cancer treatments and improving patient care.