Depth Dose Curves Determined by Ionization, Film Density, Ferrous Sulphate and Survival Rate of Coli Bacteria and Diploid Yeasts Using a 20 MeV Electron Beam

TrueBeam STx latest generation linear accelerators (linacs) installed at Sheikh Khalifa International University Hospital in Casablanca, Morocco. The aim of this is to present and compare the result of the Electron commissioning measurement on TrueBeam Stx and clinac iX installed at Sheikh Khalifa International University Hospital in Casablanca, Morocco. A compariaon of eMC calculations and measurements for TrueBeam Stx were evaluated. Dosimetric parameters are systematically measured using a large water phantom 3D scanning system MP3 Water Phantom (PTW, Freiburg, Germany). The data of the electron beams commissioning including depth dose curves for each applicator, depth dose curves without applicator and the profile in air for a large field size 40x 40cm2, and the Absolute Dose (cGy/MU) for each applicator. All the data were examined and compared for five electron beams (E6MeV, E9MeV, E12MeV, E16MeV and E20MeV) of Varian’s TrueBeam STx and Clinac iX machines. A comparison, between measurement PDDs and calculated by the Eclipse electron Monte Carlo (eMC) algorithm were performed to validate Truebeam Stx commissioning. All this measurements were performed with a Roos and Markus plane parallel chamber. Our measured data indicated that electron beam PDDs from the TrueBeam Stx machine are well matched to those from our Varian Clinac iX machine. Significant differences between TrueBeam and Clinac iX were found in in‐air profiles and open field output. Maximum depth dose for the TrueBeam Stx and Clinac iX for the following energies (6, 9, 12, 16, 20 MeV) are respectively (1.15; 1.89; 2.6; 3.1; and 2.35) and (1.24; 1.95; 2.70; 2.99 and 2.4cm). For the TrueBeam Stx and Clinac iX the quality index R50 for applicator 15x15 cm2 are in the tolerance intervals. Surface dose increases by increasing energy for both machines. The Absolute Dose (cGy/MU) calibrated for both machine in Dmax at 1cGy/MU for the reference field size cone 15x15 cm2. Bremsstrahlung tail Rp per energy levels as follows for the TrueBeam Stx : 6 MeV – 2.85 cm, 9 MeV – 4.28 cm, 12 MeV – 5.97 cm, 16 MeV – 7.88 cm and 20 MeV – 9.86 cm. and for the Clinac iX : 6 MeV – 2.86 cm, 9 MeV – 4.32 cm, 12 MeV – 5.96 cm, 16 MeV – 7.93 cm and 20 MeV – 10.08 cm. A good agreement between modeled and measured data is observed.

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Experimental study of the depth dose distributions produced by an electron beam

Instruments and Experimental Techniques ◽

10.1134/s0020441206040191 ◽

2006 ◽

Vol 49 (4) ◽

pp. 559-562

Author(s):

A. V. Belousov ◽

A. A. Kurakin ◽

A. P. Chernyaev

Keyword(s):

Experimental Study ◽

Electron Beam ◽

Dose Distributions ◽

Depth Dose

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PO-1486: Electron beam depth dose distributions in 3D-printed samples with different material filling factor

Radiotherapy and Oncology ◽

10.1016/s0167-8140(21)01504-8 ◽

2020 ◽

Vol 152 ◽

pp. S799-S800

Author(s):

S. StuchebroV ◽

A. Bulavskaya ◽

Y. Cherepennikov ◽

B. Gavrikov ◽

I. Miloichikova ◽

...

Keyword(s):

Electron Beam ◽

Filling Factor ◽

Dose Distributions ◽

Depth Dose ◽

Beam Depth ◽

3D Printed

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Electron beam central axis depth dose measurements

Medical Physics ◽

10.1118/1.595696 ◽

1985 ◽

Vol 12 (3) ◽

pp. 357-361 ◽

Cited By ~ 8

Author(s):

Thomas H. Kirby ◽

Robert J. Gastorf ◽

William F. Hanson ◽

Lawrence W. Berkley ◽

William F. Gagnon ◽

...

Keyword(s):

Electron Beam ◽

Central Axis ◽

Depth Dose ◽

Dose Measurements

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Improving Clinical dosimetric Accuracy of cancer treatment using a special quality of Electron and Photon Beam

Scientific Inquiry and Review ◽

10.32350/sir.53.02 ◽

2021 ◽

Vol 5 (3) ◽

Author(s):

Ayesha Ikhlaq ◽

Saeed Ahmad Buzdar ◽

Muhammad Usman Mustafa ◽

Sana Salahuddin ◽

Mehr-Un-Nisa ◽

...

Keyword(s):

Radiation Therapy ◽

Electron Beam ◽

Electron Beams ◽

Photon Beam ◽

Field Size ◽

External Beam Radiation ◽

Photon Beams ◽

Depth Dose ◽

Electron And Photon

In external beam radiation therapy, electron and photon beams have extraordinary characteristics in the treatment of cancer. The electron and photon beam characteristic are essential to study before calibration of machine. This study focused on the dosimetric characteristics of different energies of electron beams for different field size. The basic objective of this work is, to calculate dosimetric parameters and characteristics of electron beam, specially depth dose characteristics along central axis. In this work, 6 MeV, 9 MeV, 12 MeV, 15 MeV and 18 MeV of electron beam and 6 MV and 15 MV of photon beam with different field size is used. Characteristics of depth dose of electron and photon beam in water have analyzed to provide better quality of radiation therapy treatment planning. The different beam characteristics are due to different interactions that occurs between electron beams giving them a definite range whereas photon beams are attenuated leading to dose deposition and much larger range with no definite end. Depth dose characteristics of electron and photon beams do not show same characteristics as interaction of beam with matter depends on the quality of beam. Attenuation and penetration factors change with changing dosimetric parameters. Complete analysis of dosimetric characteristics of electron and photon beam help to choose more accurate beam for the treatment of cancer. This work will help to increase accuracy in treatment of cancer with radiotherapy.

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