SBIR-STTR Award

The application proposes to verify the applicability of a newly devised method of cancer therapy inverse treatment planning to clinical practice. Conformal radiation therapy planning is best carried out as the solution to an inverse problems: Given a set of required doses, data on the patient's anatomy and the characteristics of all the available beams, it calculates the optimum beam delivery parameters. The new method is based on a Dynamically Penalized Likelihood method that allows the therapist to specify tumor and sensitive tissue doses with the assurance that the resulting treatment plan will deliver a uniform dose to the tumor, without significant cold spots, and a much lower specified dose to the sensitive tissues. Specifically, this application proposes to carry out initial testing of the new methodology in a clinical environment, develop a faster version of the algorithm, compare it to other competing methods and, finally, carry out initial treatment planning tests with true patient data. The methodology to be tested can provide a strong impetus to precise treatment planning of difficult tumor/sensitive tissue configurations using multiple x-ray pencil beams by virtue of the robustness, flexibility and simplicity of adjustment of the methodology.Proposed Commercial Application:The successful completion of the proposed work would prepare the Principal Investigator for a Phase II SBIR application and commercialization of the DPL methodology in the form of computer programs to interface with current treatment planning software. As modulated x-ray pencil beam delivery methods become available from the large instrument manufacturers for treatment of difficult tumor configurations, successful, reliable programs for inverse treatment planning will become essential.

Thesaurus Terms:
mathematical model, method development, neoplasm /cancer radiation therapy, patient care planning, radiation therapy dosage phantom model human dataNATIONAL CANCER INSTITUTE

This application proposes to develop a prototype software package for Intensity Modulated Radiation Treatment (IMRT) planning using the favorable characteristics of the Dynamically Penalized Likelihood (DPL) method of beam intensity optimization. Based on the premise that a Therapist wants to deliver a radiation dose to a treatment volume that is as high as possible, without regions of substantial over- or under- irradiation and as low a dose as possible to organs and tissues at risk, the DPL method constitutes a stable, controllable and fast method of calculation of optimum beam intensities fulfilling those requirements. After a successful proof-of-principle in a Phase I SBIR project, it is now proposed to carry out research to fully understand the relationship between algorithm parameters, doses prescribed to the different regions and medical end-points like Tumor Control Probabilities (TCP's) and Dose Volume Distributions (DVD's). It is further proposed to integrate the DPL algorithm into a commercial treatment planning system and to carry out comparative tests in the clinical environments of UCLA. The final goal is to generate an "optimization engine" that can be commercialized by incorporating it into the currently developing IMRT software packages of one or more radiation treatment equipment and software companies. PROPOSED COMMERCIAL APPLICATION: As a result of the work carried out in Phase I, there is already one commercial company interested in licensing the DPL algorithm, as is. The research to be carried out in Phase II is expected to demonstrate the excellent qualities of the DPL method for IMRT planning, which is now coming to the forefront as the correct way to treat patients with difficult tumors by radiation and for Radiosurgery. Further licensing of the method by other large commercial companies in the field is then expected.

Thesaurus Terms:
neoplasm /cancer radiation therapy, patient care planning, radiation therapy dosage, technology /technique development computer program /software, computer system design /evaluation human data