In this article a brief story of mathematical model for one of the most lethal tumor, GBM, is considered, and it tries to reduce the amount of dose delivery to the patient by using genetic algorithm (GA). Since this tumor kills many of its patients, lots of efforts have been done in the previous decades in order to cure this cancer or at least increase its patients ' lifetime. Most of previous models have not been associated with a treatment term but in this investigation the latest model of the tumor which contains the input term of radiotherapy has been utilized. This paper shows a new optimization solution on the latest model of GBM and reduces the total dose received by the patient while he or she has the same lifetime
This paper presents a design method for optimal cancer chemotherapy schedules using genetic algorith...
Glioblastoma murtiforme (GBM) is the most aggressive form of glioma, classified by the Wor1d Health ...
Life threatening nature of cancer and toxic effects of chemotherapy demand for an optimal design of ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Modeling the tumor behavior in the host organ as function of time and radiation dose has been a majo...
Purpose: To investigate the potential in substantially improving Glioblastoma Multiforme (GBM) radio...
In this paper, a design method for optimal cancer chemotherapy schedules via genetic algorithm (GA) ...
BED model (Biological Effective Dose) for Hyperfractionation TPO was optimized with Pareto-Multiobje...
Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractio...
Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractio...
PURPOSE: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
AbstractBiologists have uncovered some of the most basic mechanisms by which normal cells develop in...
BED model (Biological Effective Dose) for Head and Neck tumors Hyperfractionation TPO was optimizedw...
To demonstrate a method of generating patient-specific, biologically-guided radiotherapy dose plans ...
Purpose: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
This paper presents a design method for optimal cancer chemotherapy schedules using genetic algorith...
Glioblastoma murtiforme (GBM) is the most aggressive form of glioma, classified by the Wor1d Health ...
Life threatening nature of cancer and toxic effects of chemotherapy demand for an optimal design of ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Modeling the tumor behavior in the host organ as function of time and radiation dose has been a majo...
Purpose: To investigate the potential in substantially improving Glioblastoma Multiforme (GBM) radio...
In this paper, a design method for optimal cancer chemotherapy schedules via genetic algorithm (GA) ...
BED model (Biological Effective Dose) for Hyperfractionation TPO was optimized with Pareto-Multiobje...
Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractio...
Constrained algorithms for BED model (Biological Effective Dose) in Head and Neck tumors Hypofractio...
PURPOSE: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
AbstractBiologists have uncovered some of the most basic mechanisms by which normal cells develop in...
BED model (Biological Effective Dose) for Head and Neck tumors Hyperfractionation TPO was optimizedw...
To demonstrate a method of generating patient-specific, biologically-guided radiotherapy dose plans ...
Purpose: To demonstrate a method of generating patient-specific, biologically-guided radiotherapy do...
This paper presents a design method for optimal cancer chemotherapy schedules using genetic algorith...
Glioblastoma murtiforme (GBM) is the most aggressive form of glioma, classified by the Wor1d Health ...
Life threatening nature of cancer and toxic effects of chemotherapy demand for an optimal design of ...