SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387459780> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W4387459780 abstract "Introduction Radiation therapy (RT) is one of the most common anticancer therapies. Yet, current radiation oncology practice does not adapt RT dose for individual patients, despite wide interpatient variability in radiosensitivity and accompanying treatment response. We have previously shown that mechanistic mathematical modeling of tumor volume dynamics can simulate volumetric response to RT for individual patients and estimation personalized RT dose for optimal tumor volume reduction. However, understanding the implications of the choice of the underlying RT response model is critical when calculating personalized RT dose. Methods In this study, we evaluate the mathematical implications and biological effects of 2 models of RT response on dose personalization: (1) cytotoxicity to cancer cells that lead to direct tumor volume reduction (DVR) and (2) radiation responses to the tumor microenvironment that lead to tumor carrying capacity reduction (CCR) and subsequent tumor shrinkage. Tumor growth was simulated as logistic growth with pre-treatment dynamics being described in the proliferation saturation index (PSI). The effect of RT was simulated according to each respective model for a standard schedule of fractionated RT with 2 Gy weekday fractions. Parameter sweeps were evaluated for the intrinsic tumor growth rate and the radiosensitivity parameter for both models to observe the qualitative impact of each model parameter. We then calculated the minimum RT dose required for locoregional tumor control (LRC) across all combinations of the full range of radiosensitvity and proliferation saturation values. Results Both models estimate that patients with higher radiosensitivity will require a lower RT dose to achieve LRC. However, the two models make opposite estimates on the impact of PSI on the minimum RT dose for LRC: the DVR model estimates that tumors with higher PSI values will require a higher RT dose to achieve LRC, while the CCR model estimates that higher PSI values will require a lower RT dose to achieve LRC. Discussion Ultimately, these results show the importance of understanding which model best describes tumor growth and treatment response in a particular setting, before using any such model to make estimates for personalized treatment recommendations." @default.
W4387459780 created "2023-10-10" @default.
W4387459780 creator A5014796235 @default.
W4387459780 creator A5060238737 @default.
W4387459780 creator A5061651754 @default.
W4387459780 creator A5072668637 @default.
W4387459780 creator A5093029294 @default.
W4387459780 date "2023-10-09" @default.
W4387459780 modified "2023-10-11" @default.
W4387459780 title "Mathematical modeling of radiotherapy: impact of model selection on estimating minimum radiation dose for tumor control" @default.
W4387459780 cites W1484334610 @default.
W4387459780 cites W1512206713 @default.
W4387459780 cites W1528741131 @default.
W4387459780 cites W1545465591 @default.
W4387459780 cites W1916448402 @default.
W4387459780 cites W1963161958 @default.
W4387459780 cites W1965484982 @default.
W4387459780 cites W1967175967 @default.
W4387459780 cites W1971747664 @default.
W4387459780 cites W1976359085 @default.
W4387459780 cites W2000237014 @default.
W4387459780 cites W2002915111 @default.
W4387459780 cites W2004637495 @default.
W4387459780 cites W2018895767 @default.
W4387459780 cites W2036198544 @default.
W4387459780 cites W2041208813 @default.
W4387459780 cites W2045471235 @default.
W4387459780 cites W2047677763 @default.
W4387459780 cites W2050034556 @default.
W4387459780 cites W2056868695 @default.
W4387459780 cites W2057838299 @default.
W4387459780 cites W2083337908 @default.
W4387459780 cites W2087261484 @default.
W4387459780 cites W2111663010 @default.
W4387459780 cites W2123669082 @default.
W4387459780 cites W2129299671 @default.
W4387459780 cites W2139183953 @default.
W4387459780 cites W2144173098 @default.
W4387459780 cites W2165877571 @default.
W4387459780 cites W2166406736 @default.
W4387459780 cites W2179429273 @default.
W4387459780 cites W2566074209 @default.
W4387459780 cites W2728173650 @default.
W4387459780 cites W2806116757 @default.
W4387459780 cites W2810580569 @default.
W4387459780 cites W2892058085 @default.
W4387459780 cites W2900887235 @default.
W4387459780 cites W2901051058 @default.
W4387459780 cites W2909986270 @default.
W4387459780 cites W2913728931 @default.
W4387459780 cites W2938305903 @default.
W4387459780 cites W2950918617 @default.
W4387459780 cites W2962150852 @default.
W4387459780 cites W2963655326 @default.
W4387459780 cites W2967647023 @default.
W4387459780 cites W2972228663 @default.
W4387459780 cites W3008274705 @default.
W4387459780 cites W3021611673 @default.
W4387459780 cites W3023412490 @default.
W4387459780 cites W3087028314 @default.
W4387459780 cites W3131700704 @default.
W4387459780 cites W3138656858 @default.
W4387459780 cites W3160128359 @default.
W4387459780 cites W3171645542 @default.
W4387459780 cites W3202800081 @default.
W4387459780 cites W3210290895 @default.
W4387459780 cites W4214836883 @default.
W4387459780 cites W4221042119 @default.
W4387459780 cites W4285800489 @default.
W4387459780 cites W4300687540 @default.
W4387459780 cites W4380923985 @default.
W4387459780 cites W4380926481 @default.
W4387459780 doi "https://doi.org/10.3389/fonc.2023.1130966" @default.
W4387459780 hasPublicationYear "2023" @default.
W4387459780 type Work @default.
W4387459780 citedByCount "0" @default.
W4387459780 crossrefType "journal-article" @default.
W4387459780 hasAuthorship W4387459780A5014796235 @default.
W4387459780 hasAuthorship W4387459780A5060238737 @default.
W4387459780 hasAuthorship W4387459780A5061651754 @default.
W4387459780 hasAuthorship W4387459780A5072668637 @default.
W4387459780 hasAuthorship W4387459780A5093029294 @default.
W4387459780 hasBestOaLocation W43874597801 @default.
W4387459780 hasConcept C126322002 @default.
W4387459780 hasConcept C143998085 @default.
W4387459780 hasConcept C206684579 @default.
W4387459780 hasConcept C2989005 @default.
W4387459780 hasConcept C502942594 @default.
W4387459780 hasConcept C509974204 @default.
W4387459780 hasConcept C71924100 @default.
W4387459780 hasConceptScore W4387459780C126322002 @default.
W4387459780 hasConceptScore W4387459780C143998085 @default.
W4387459780 hasConceptScore W4387459780C206684579 @default.
W4387459780 hasConceptScore W4387459780C2989005 @default.
W4387459780 hasConceptScore W4387459780C502942594 @default.
W4387459780 hasConceptScore W4387459780C509974204 @default.
W4387459780 hasConceptScore W4387459780C71924100 @default.
W4387459780 hasLocation W43874597801 @default.
W4387459780 hasOpenAccess W4387459780 @default.
W4387459780 hasPrimaryLocation W43874597801 @default.