International Journal of Advanced Multidisciplinary Research and Studies
Volume 4, Issue 6, 2024
Advanced Radiotherapy 3d Isodosezones Optimization for Hyperfractionated Treatment Planning Optimization in Lung Tumors with Repair-Tissue Factors Mathematical Review
Author(s): Francisco Casesnoves
DOI: https://doi.org/10.62225/2583049X.2024.4.6.3474
Abstract:
In recent contributions, [102], precise 3D imaging-processing Isodosezones [Casesnoves, 2022], delimited by 3D Isodoselines were developed/explained in lung, head and neck, and prostate cancer. The radiotherapy model applied was the classical/initial BED one algorithm. Modern biological-model-based Treatment Planning Optimization can get objective improvements by using high-precision Isodosezones/lines when selecting the optimal dose delivery/schedule for any personalized treatment. This paper demonstrates improved imaging-processing programming techniques, [Casesnoves, May 7th, 2024], and engineered software which is developed for numerical hyperfractionated 3D TPO lung cancer treatment planning optimization database. Mathematical algorithms are detailed. Results show a series of graphics results obtained with the 3D Imaging-Isodosezones Pareto-Multiobjective Optimization programming is shown and detailed. Significances are complemented with a concise introductory/comparative section to explain/discuss the recent formulation/equations for tissue-repair factors in BED basic equation is initiated. Applications in radiotherapy medical physics are subsequently briefed.
Keywords: Pareto-Multiobjective Optimization (PMO), Mathematical Methods (MM), Biological Models (BM), Radiation Therapy (RT), Initial Tumor Clonogenes Number Population (N0)
Pages: 553-563
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