BIOMAT Database Logo BIOMAT Database Logo

Microdosimetry distributions for 40-200 MeV protons. 2006

Z Palajová, and F Spurný, and M Davídková
Department of Dosimetry and Applications of Ionizing Radiation, Czech Technical University, Brehová 7, 115 19 Prague 1, Czech Republic. davidkova@ujf.cas.cz

Theoretical calculations have been performed to obtain microdosimetrical characteristics for protons in energy range from 40 to 200 MeV. This energy range is a representative of proton energies in tissue during radiation therapy and it also represents a large portion of the proton fluency in the South Atlantic Anomaly. Distributions of deposited energy calculated using Monte Carlo track structure code TRIOL and own-made programs were compared with experimental data obtained using spherical tissue-equivalent proportional counter. A good agreement between calculated and experimentally obtained microdosimetry spectra has been found.

UI MeSH Term Description Entries
D008954 Models, Biological Theoretical representations that simulate the behavior or activity of biological processes or diseases. For disease models in living animals, DISEASE MODELS, ANIMAL is available. Biological models include the use of mathematical equations, computers, and other electronic equipment. Biological Model,Biological Models,Model, Biological,Models, Biologic,Biologic Model,Biologic Models,Model, Biologic
D011874 Radiometry The measurement of radiation by photography, as in x-ray film and film badge, by Geiger-Mueller tube, and by SCINTILLATION COUNTING. Geiger-Mueller Counters,Nuclear Track Detection,Radiation Dosimetry,Dosimetry, Radiation,Geiger Counter,Geiger-Mueller Counter Tube,Geiger-Mueller Probe,Geiger-Mueller Tube,Radiation Counter,Counter Tube, Geiger-Mueller,Counter Tubes, Geiger-Mueller,Counter, Geiger,Counter, Radiation,Counters, Geiger,Counters, Geiger-Mueller,Counters, Radiation,Detection, Nuclear Track,Dosimetries, Radiation,Geiger Counters,Geiger Mueller Counter Tube,Geiger Mueller Counters,Geiger Mueller Probe,Geiger Mueller Tube,Geiger-Mueller Counter Tubes,Geiger-Mueller Probes,Geiger-Mueller Tubes,Probe, Geiger-Mueller,Probes, Geiger-Mueller,Radiation Counters,Radiation Dosimetries,Tube, Geiger-Mueller,Tube, Geiger-Mueller Counter,Tubes, Geiger-Mueller,Tubes, Geiger-Mueller Counter
D011879 Radiotherapy Dosage The total amount of radiation absorbed by tissues as a result of radiotherapy. Dosage, Radiotherapy,Dosages, Radiotherapy,Radiotherapy Dosages
D011880 Radiotherapy Planning, Computer-Assisted Computer-assisted mathematical calculations of beam angles, intensities of radiation, and duration of irradiation in radiotherapy. Computer-Assisted Radiotherapy Planning,Dosimetry Calculations, Computer-Assisted,Planning, Computer-Assisted Radiotherapy,Calculation, Computer-Assisted Dosimetry,Calculations, Computer-Assisted Dosimetry,Computer Assisted Radiotherapy Planning,Computer-Assisted Dosimetry Calculation,Computer-Assisted Dosimetry Calculations,Dosimetry Calculation, Computer-Assisted,Dosimetry Calculations, Computer Assisted,Planning, Computer Assisted Radiotherapy,Radiotherapy Planning, Computer Assisted
D012062 Relative Biological Effectiveness The ratio of radiation dosages required to produce identical change based on a formula comparing other types of radiation with that of gamma or roentgen rays. Biological Effectiveness, Relative,Effectiveness, Biologic Relative,Effectiveness, Biological Relative,Relative Biologic Effectiveness,Biologic Effectiveness, Relative,Biologic Relative Effectiveness,Biological Relative Effectiveness,Effectiveness, Relative Biologic,Effectiveness, Relative Biological,Relative Effectiveness, Biologic
D001822 Body Burden The total amount of a chemical, metal or radioactive substance present at any time after absorption in the body of man or animal. Body Burdens,Burden, Body,Burdens, Body
D003198 Computer Simulation Computer-based representation of physical systems and phenomena such as chemical processes. Computational Modeling,Computational Modelling,Computer Models,In silico Modeling,In silico Models,In silico Simulation,Models, Computer,Computerized Models,Computer Model,Computer Simulations,Computerized Model,In silico Model,Model, Computer,Model, Computerized,Model, In silico,Modeling, Computational,Modeling, In silico,Modelling, Computational,Simulation, Computer,Simulation, In silico,Simulations, Computer
D000465 Algorithms A procedure consisting of a sequence of algebraic formulas and/or logical steps to calculate or determine a given task. Algorithm
D012542 Scattering, Radiation The diversion of RADIATION (thermal, electromagnetic, or nuclear) from its original path as a result of interactions or collisions with atoms, molecules, or larger particles in the atmosphere or other media. (McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed) Radiation Scattering,Radiation Scatterings,Scatterings, Radiation
D012680 Sensitivity and Specificity Binary classification measures to assess test results. Sensitivity or recall rate is the proportion of true positives. Specificity is the probability of correctly determining the absence of a condition. (From Last, Dictionary of Epidemiology, 2d ed) Specificity,Sensitivity,Specificity and Sensitivity

Related Publications

Z Palajová, and F Spurný, and M Davídková
Relative biological effectiveness and microdosimetry of a mixed energy field of protons up to 200 MeV.
October 1994, Advances in space research : the official journal of the Committee on Space Research (COSPAR),
Z Palajová, and F Spurný, and M Davídková
The relative biological effectiveness of 160 MeV protons. I. Microdosimetry.
January 1978, International journal of radiation oncology, biology, physics,
Z Palajová, and F Spurný, and M Davídková
Scattering of polarized protons from 6Li at 200 MeV.
June 1990, Physical review. C, Nuclear physics,
Z Palajová, and F Spurný, and M Davídková
Scattering of polarized protons from 7Li at 200 MeV.
April 1991, Physical review. C, Nuclear physics,
Z Palajová, and F Spurný, and M Davídková
Spin-flip probabilities in Pb208 measured with 200 MeV protons.
October 1991, Physical review. C, Nuclear physics,
Z Palajová, and F Spurný, and M Davídková
Coincident proton emission induced by 200 MeV protons on 197Au.
August 1993, Physical review. C, Nuclear physics,
Z Palajová, and F Spurný, and M Davídková
Protons of 200 MeV incident on 12C. II. Quasifree proton knockout.
November 1989, Physical review. C, Nuclear physics,
Z Palajová, and F Spurný, and M Davídková
Measurements of depth-dose distributions in cylindrical phantoms exposed to 28-MeV, 21-MeV, 14-MeV, or 5-MeV Protons.
February 1969, Radiation research,
Z Palajová, and F Spurný, and M Davídková
Stopping powers of a tissue-equivalent gas for 40--200 keV protons.
September 1980, Physics in medicine and biology,
Z Palajová, and F Spurný, and M Davídková
Internuclear cascade-evaporation model for LET spectra of 200 MeV protons used for parts testing.
December 1998, IEEE transactions on nuclear science,
Copied contents to your clipboard!