Benchmark system for radiation therapy planning

Abstract

A system for evaluating radiation treatment planning generates a fictitious treatment dose matrix with a quality of dose placement beyond that achievable with physically realizable radiation therapy machines. Such a fictitious treatment dose matrix provides an objective measure that is readily tailored to different clinical situations, and although unattainable, thereby provides a benchmark allowing evaluation of radiation plan goals and the radiation plans between different multiple clinical situations and individuals.

Description

CROSS REFERENCE TO RELATED APPLICATION[0001]This application is a continuation of and claims the benefit of U.S. patent application Ser. No. 14 / 051,752 filed Oct. 11, 2013 and issuing as U.S. Pat. No. 9,463,336 on Oct. 11, 2016, which claims the benefit of U.S. provisional application 61 / 880,335 filed Sep. 20, 2013. These applications are hereby incorporated by reference in their entirety.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENTBackground of the Invention[0002]The present invention relates to medical radiation therapy and in particular to an electronic computer program for evaluating radiation therapy plans in light of unique patient anatomy and specific plan objectives.[0003]Medical equipment for radiation therapy treats tumorous tissue with high-energy radiation. The amount of radiation and its placement must be accurately controlled to ensure both that the tumor receives sufficient radiation to be eradicated, and that the damage to the surrounding and adjac...

AI Technical Summary

Benefits of technology

The present invention provides a useful and quantitative way to evaluate the quality of radiation therapy plans, even in situations where there are wide variations. It creates a "fictitious" radiation dose matrix based on a simplified modeling of some of the radiation planning data for the clinical situation along with the limits of physics. This allows the generation of a benchmark suitable for evaluation of the radiation plan goals before planning and for evaluation of the radiation plan after planning with reduced influence by the difficulty of the clinical situation or the particular radiation therapy goals set. The invention also provides a simple method to identify impossible plan goals and a simple output reflecting the results of the benchmarking process.

Problems solved by technology

Generally this trade-off exists because of an inability to precisely control radiation falloff at the boundary between healthy and diseased tissue caused by the physics of radiation scattering, and the need for the radiation to pass through healthy tissue on the way to or from the treated tissue.

The wide variety of different clinical situations presented by patients (e.g. varying anatomy size, shape, and location) prevents practical reuse of standard radiation plans but instead normally requires a custom radiation therapy plan be developed for each clinical situation.

While there are computerized systems that can assist in the development of a clinical radiation therapy plan, the complexity of this process means that clinical radiation therapy plans for most important clinical situations require substantial input from a skilled human planner.

Automated systems for developing clinical radiation therapy plans are frequently ineffective when one or more treatment goal is physically unattainable in a particular clinical situation or with a particular radiation therapy machine.

The practical uniqueness of each clinical situation and the wide variation in difficulty presented by each clinical situation make it extremely difficult to assess the quality of a given radiation therapy plan.

While periodic contests among radiation therapy planners indicate a significant range in the quality of the plans produced, outside of the contest the individual planner has very little guidance with respect to how well his or her plan achieved the goals relative to other possible plans.

A simple comparison of a plan against the radiation plan goals on which the clinical radiation therapy plan is founded fails to provide the necessary guidance because failure to meet a radiation plan goal can simply reflect an improperly set plan goal or inherent difficulty in the particular clinical situation (for example, where there is a large overlap between healthy and diseased tissue).

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