Daniel E Wessol

Title: Innovations in Radiotherapy Dosimetry Planning by Daniel E Wessol

Introduction

Daniel E Wessol is an accomplished inventor based in Bozeman, MT (US). He has made significant contributions to the field of radiotherapy through his innovative patents. With a total of 4 patents, Wessol's work focuses on improving dosimetry planning for cancer treatment.

Latest Patents

Wessol's latest patents include methods and computer-readable media for enhanced radiotherapy dosimetry planning. These methods aim to develop a dosimetry plan for treatment volumes irradiated during radiation therapy. The plans are available in near 'real-time' due to a novel geometric model construction of the treatment volume. This advancement allows for rapid calculations of simulated movements of particles along particle tracks. The particles represent various emissions from internal radiation sources or high-energy particles from external sources.

Another notable patent involves methods and computer executable instructions for rapidly calculating simulated particle transport through geometrically modeled treatment volumes. This innovation enhances clinical use for in vivo applications by providing a dosimetry plan in "real-time." The geometric model constructed for the planned treatment volume allows for efficient calculations of particle movements, significantly improving computational times.

Career Highlights

Throughout his career, Wessol has worked with several prominent organizations, including Bechtel, BWXT Idaho, LLC, and Battelle Energy Alliance, LLC. His experience in these companies has contributed to his expertise in the field of radiotherapy and dosimetry planning.

Collaborations

Wessol has collaborated with notable professionals in his field, including Floyd J Wheeler and Jeremy L Cook. These collaborations have further enriched his work and innovations in radiotherapy.

Conclusion

Daniel E Wessol's contributions to radiotherapy dosimetry planning through his innovative patents have significantly advanced the field. His work continues to impact cancer treatment methodologies, showcasing the importance of innovation in medical technology.