Dose response of commercially available optically stimulated luminescent detector, AL2O3:C for megavoltage photons and electrons

Kim, Dong Wook; Chung, Weon Kuu; Shin, Dong Oh; Yoon, Myonggeun; Hwang, Ui‐Jung; Rah, Jeong-Eun; Jeong, Hojin; Lee, Sang Yeob; Shin, Dongho; Lee, Se Byeong; Park, Sung Yong

doi:10.1093/rpd/ncr223

Cited by 31 publications

(35 citation statements)

References 16 publications

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“…RPLGD has relatively good reproducibility at about 1% and low energy dependency, at higher than 200 keV energy [23-27]. In addition, RPLGD has relatively small incident beam angular dependency, and low toxicity inside the human body, compared with a TLD or optically stimulated luminescence dosimeter (OSLD) [28-30]. A geometrical shape of RPLGD is a rod with 0.15 cm of the diameter and 0.85 cm length.…”

Section: Methodsmentioning

confidence: 99%

Risk of second cancer from scattered radiation of intensity-modulated radiotherapies with lung cancer

et al. 2013

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PurposeTo compare the risk of secondary cancer from scattered and leakage doses following intensity-modulated radiotherapy (IMRT), volumetric arc therapy (VMAT) and tomotherapy (TOMO) in patients with lung cancer.MethodsIMRT, VMAT and TOMO were planned for five lung cancer patients. Organ equivalent doses (OEDs) are estimated from the measured corresponding secondary doses during irradiation at various points 20 to 80 cm from the iso-center by using radio-photoluminescence glass dosimeter (RPLGD).ResultsThe secondary dose per Gy from IMRT, VMAT and TOMO for lung cancer, measured 20 to 80 cm from the iso-center, are 0.02~2.03, 0.03~1.35 and 0.04~0.46 cGy, respectively. The mean values of relative OED of secondary dose of VMAT and TOMO, which is normalized by IMRT, ranged between 88.63% and 41.59% revealing 88.63% and 41.59% for thyroid, 82.33% and 41.85% for pancreas, 77.97% and 49.41% for bowel, 73.42% and 72.55% for rectum, 74.16% and 81.51% for prostate. The secondary dose and OED from TOMO became similar to those from IMRT and VMAT as the distance from the field edge increased.ConclusionsOED based estimation suggests that the secondary cancer risk from TOMO is less than or comparable to the risks from conventional IMRT and VMAT.

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Section: Methodsmentioning

confidence: 99%

Risk of second cancer from scattered radiation of intensity-modulated radiotherapies with lung cancer

et al. 2013

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“…Current commercial OSLDs are in a disk‐type form, which can introduce angular dependence for geometrical reasons when comparing an edge‐on irradiation to an en‐face irradiation, as electrons may preferentially scatter out of the thin but relatively high‐density disk with an edge‐on irradiation. At megavoltage energies, mixed results have been found between edge‐on and en‐face signal per dose, ranging from 0% to 1%, 2% , and 4%). Detailed Monte Carlo simulations supported that there is a 2% effect at 6 MV .…”

Section: Factors Relevant For Dose Calculationmentioning

confidence: 99%

AAPM TG 191: Clinical use of luminescent dosimeters: TLDs and OSLDs

Kry

Alvarez

Cygler³

et al. 2019

Medical Physics

115

142

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Thermoluminescent dosimeters (TLD) and optically stimulated luminescent dosimeters (OSLD) are practical, accurate, and precise tools for point dosimetry in medical physics applications. The charges of Task Group 191 were to detail the methodologies for practical and optimal luminescence dosimetry in a clinical setting. This includes: (a) to review the variety of TLD/OSLD materials available, including features and limitations of each; (b) to outline the optimal steps to achieve accurate and precise dosimetry with luminescent detectors and to evaluate the uncertainty induced when less rigorous procedures are used; (c) to develop consensus guidelines on the optimal use of luminescent dosimeters for clinical practice; and (d) to develop guidelines for special medically relevant uses of TLDs/OSLDs such as mixed photon/neutron field dosimetry, particle beam dosimetry, and skin dosimetry. While this report provides general guidelines for TLD and OSLD processes, the report provides specific details for TLD‐100 and nanoDotTM dosimeters because of their prevalence in clinical practice.

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“…Because OSLD have been widely implemented [10][11][12][13] and have similar characteristics to RGDs, it is worthwhile to compare the benefits and disadvantages between the two kinds of dosimeters. The OSLDs also contain aluminum, which is a high-atomic-number material; therefore, OSLDs are expected to have similar characteristics to RGDs with respect to a high response to low-energy x-rays.…”

Section: C Comparison With Optically Stimulated Luminescence Dosimmentioning

confidence: 99%

“…The other characteristics such as reproducibility, linearity, and energy dependence seemed to be comparable with other reports. [10][11][12][13][14][15][16] However, RGD has some advantages compared with OSLD such as a reduced fading effect [negligible for RGD, but about 2.5% in 30 days for OSLD (Ref. 15)] and a reduced depletion effect [about 1.5% in 100 readings for RGD, but about 3% in 100 readings for OSLD (Ref.…”

Section: C Comparison With Optically Stimulated Luminescence Dosimmentioning

confidence: 99%

Application of a radiophotoluminescent glass dosimeter to nonreference condition dosimetry in the postal dose audit system

Mizuno¹,

Fukumura²,

Fukahori³

et al. 2014

Medical Physics

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A set of RGD output correction factors was determined for field size changes and wedge insertions. The results obtained from recent postal dose audits were analyzed, and the mean differences between the measured and stated doses were within 0.5% for every field size and wedge angle. The SDs of the distribution were within the estimated uncertainty, except for one condition that was not reliable because of poor statistics.

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Dose response of commercially available optically stimulated luminescent detector, AL2O3:C for megavoltage photons and electrons

Cited by 31 publications

References 16 publications

Risk of second cancer from scattered radiation of intensity-modulated radiotherapies with lung cancer

Risk of second cancer from scattered radiation of intensity-modulated radiotherapies with lung cancer

AAPM TG 191: Clinical use of luminescent dosimeters: TLDs and OSLDs

Application of a radiophotoluminescent glass dosimeter to nonreference condition dosimetry in the postal dose audit system

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