Hoda Darestani scite author profile

Hoda Darestani

5Publications

18Citation Statements Received

114Citation Statements Given

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111

Affiliations

Islamic Azad University, Science and Research Branch, Islamic Azad University, Tehran

Publications

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Neutron dose measurements of Varian and Elekta linacs by TLD600 and TLD700 dosimeters and comparison with MCNP calculations

et al. 2014

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High-energy linacs produce secondary particles such as neutrons (photoneutron production). The neutrons have the important role during treatment with high energy photons in terms of protection and dose escalation. In this work, neutron dose equivalents of 18 MV Varian and Elekta accelerators are measured by thermoluminescent dosimeter (TLD) 600 and TLD700 detectors and compared with the Monte Carlo calculations. For neutron and photon dose discrimination, first TLDs were calibrated separately by gamma and neutron doses. Gamma calibration was carried out in two procedures; by standard 60Co source and by 18 MV linac photon beam. For neutron calibration by 241Am-Be source, irradiations were performed in several different time intervals. The Varian and Elekta linac heads and the phantom were simulated by the MCNPX code (v. 2.5). Neutron dose equivalent was calculated in the central axis, on the phantom surface and depths of 1, 2, 3.3, 4, 5, and 6 cm. The maximum photoneutron dose equivalents which calculated by the MCNPX code were 7.06 and 2.37 mSv.Gy-1 for Varian and Elekta accelerators, respectively, in comparison with 50 and 44 mSv.Gy-1 achieved by TLDs. All the results showed more photoneutron production in Varian accelerator compared to Elekta. According to the results, it seems that TLD600 and TLD700 pairs are not suitable dosimeters for neutron dosimetry inside the linac field due to high photon flux, while MCNPX code is an appropriate alternative for studying photoneutron production.

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Ep-1368 Evaluation of Neutron Dose in Central Axis Absorbed Dose in Linac Machines by Tld600 and Tld700 Dosimeters

Darestani¹,

Nedaie²,

Mohammadi³

et al. 2012

Radiotherapy and Oncology

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Neutron dose evaluation of Elekta Linac at two energies (10 & 18 MV) by MCNP code and comparison with experimental measurements

Shagholi

Ali

Sadeghi³

et al. 2014

JAP

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Medical linear accelerators, besides the clinically high energy electron and photon beams, produce other secondary particles such as neutrons which escalate the delivered dose. In this study the neutron dose at 10 and 18MV Elekta linac was obtained by using TLD600 and TLD700 as well as Monte Carlo simulation. For neutron dose assessment in 2020 cm2 field, TLDs were calibrated at first. Gamma calibration was performed with 10 and 18 MV linac and neutron calibration was done with 241Am-Be neutron source. For simulation, MCNPX code was used then calculated neutron dose equivalent was compared with measurement data. Neutron dose equivalent at 18 MV was measured by using TLDs on the phantom surface and depths of 1, 2, 3.3, 4, 5 and 6 cm. Neutron dose at depths of less than 3.3cm was zero and maximized at the depth of 4 cm (44.39 mSvGy-1), whereas calculation resultedÂ in the maximum of 2.32 mSvGy-1 at the same depth. Neutron dose at 10 MV was measured by using TLDs on the phantom surface and depths of 1, 2, 2.5, 3.3, 4 and 5 cm. No photoneutron dose was observed at depths of less than 3.3cm and the maximum was at 4cm equal to 5.44mSvGy-1, however, the calculated data showed the maximum of 0.077mSvGy-1 at the same depth. The comparison between measured photo neutron dose and calculated data along the beam axis in different depths, shows that the measurement data were much more than the calculated data, so it seems that TLD600 and TLD700 pairs are not suitable dosimeters for neutron dosimetry in linac central axis due to high photon flux, whereas MCNPX Monte Carlo techniques still remain a valuable tool for photonuclear dose studies.

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The measurement of photoneutron dose around an 18 MV Varian linear accelerator by TLD600 and TLD700 dosimeters inside the polyethylene sphere of neutron probe LB 6411

Samiei

Nedaie

Darestani

et al. 2014

JAP

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BremsstrahlungÂ X-raysÂ fromÂ high-energyÂ linearÂ Â Â acceleratorsÂ (Linacs)Â produceÂ neutronsÂ asÂ aÂ resultÂ ofÂ photonuclearÂ reactionsÂ mainlyÂ withÂ theÂ differentÂ materialsÂ constitutingÂ theÂ acceleratorÂ head.Â TheÂ neutronsÂ producedÂ duringÂ highÂ energyÂ radiotherapyÂ shouldÂ beÂ consideredÂ inÂ termsÂ ofÂ protectionÂ andÂ oseÂ escalation.Â Due Â toÂ theÂ veryÂ intenseÂ photonÂ componentÂ inÂ theÂ LinacÂ fieldÂ causingÂ pulseÂ pile-upÂ andÂ dead-timeÂ effectsÂ inÂ detectors,Â measurementÂ ofÂ theÂ correspondingÂ neutronÂ doseÂ byÂ activeÂ dosimetersÂ isÂ extremelyÂ troublesome.Â InÂ thisÂ study,Â theÂ neutronÂ probeÂ LBÂ 6411,Â whichÂ activeÂ detectorÂ ofÂ 3HeÂ proportionalÂ counterÂ tubeÂ wasÂ replacedÂ withÂ theÂ passiveÂ detectorsÂ ofÂ TLD600Â andÂ TLD700,Â hasÂ beenÂ usedÂ toÂ performÂ neutronÂ measurementsÂ atÂ fourÂ pointsÂ aroundÂ theÂ 18Â MVÂ VarianÂ 2100CÂ LinacÂ facility.Â TheÂ neutronÂ doseÂ equivalentÂ atÂ theÂ distanceÂ ofÂ 1Â andÂ 2Â mÂ fromÂ theÂ isocentreÂ onÂ theÂ patientÂ couchÂ wasÂ obtainedÂ 2.2Â andÂ 0.75Â mSv.Gy-1Â respectively.Â AccordingÂ toÂ theÂ results,Â theÂ doseÂ equivalentÂ fromÂ emittedÂ photoneutronsÂ isÂ notÂ negligibleÂ andÂ thereforeÂ treatmentÂ conditionsÂ shouldÂ beÂ optimized.Â TheÂ resultsÂ ofÂ thisÂ studyÂ emphasizedÂ thatÂ TLD600Â andÂ TLD700Â dosimetersÂ insideÂ theÂ polyethyleneÂ sphereÂ ofÂ neutronÂ probeÂ LBÂ 6411Â isÂ anÂ appropriateÂ choiceÂ forÂ studyingÂ photoneutronÂ productionÂ inÂ theÂ vicinityÂ ofÂ theÂ accelerator.

show abstract

Ep-1369 Neutron Dose Evaluation of Elekta Linac by McNp Code and Comparison With Experimental Measurements

Shahgholi¹,

Nedaie²,

Sadeghi³

et al. 2012

Radiotherapy and Oncology

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Hoda Darestani

Neutron dose measurements of Varian and Elekta linacs by TLD600 and TLD700 dosimeters and comparison with MCNP calculations

Ep-1368 Evaluation of Neutron Dose in Central Axis Absorbed Dose in Linac Machines by Tld600 and Tld700 Dosimeters

Neutron dose evaluation of Elekta Linac at two energies (10 & 18 MV) by MCNP code and comparison with experimental measurements

The measurement of photoneutron dose around an 18 MV Varian linear accelerator by TLD600 and TLD700 dosimeters inside the polyethylene sphere of neutron probe LB 6411

Ep-1369 Neutron Dose Evaluation of Elekta Linac by McNp Code and Comparison With Experimental Measurements

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