A. Boziari scite author profile

A methodology based on thermoluminescence dosimetry was developed to check the output of teletherapy units and the given doses. It was applied in a hospital as a part of an extemal quality audit programme. Over a 7 year period the mean ratios of the output doses measured by TLDs calibrated free-in-air to the doses measured at the hospital in a 6 MV X ray and in a 60Co unit were 1.000 +/- 0.024 (n = 86) and 0.997 +/- 0.027 (n=61), respectively. TLDs in capsules were attached to the patient's body or to a phantom to assess entrance, exit and midline doses and transmission. Factors were determined experimentally to relate the doses measured with TLDs in capsules and inside the body. The accuracy in given doses with pelvic and tangential breast fields and assessed via 752 in vivo measurements, was considered to be adequately good, taking into account the limitations of the equipment available in the hospital.

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Performance Evaluation of Diagnostic Radiology Dosimeters in Clinical and Calibration X-Ray Beams

Hourdakis

Boziari²,

Manetou³

2010

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Diagnostic radiology dosimeters should comply with International Electrotechnical Commission (IEC) 61674 standard in order to perform measurements with sufficient accuracy and reliability. The calibration of a dosimeter is performed under, and pertains to, reference conditions. However, in most cases, dosimeters are used for clinical measurements under non-reference conditions. The performance, in terms of accuracy of dose measurements, of six commercial diagnostic radiology dosimeters was tested at reference calibration and at clinical non-reference conditions. The results showed that all dosimeters being tested exhibited limits of variation within the +/-5% IEC limits. Depending on the detector's physical and operational properties, the dosimeters' energy dependence of response values varied from -4.7% to +4.2%. To address this variation of response, calibration at three radiation qualities (RQR 3, RQR 5, and RQR 9), at least, is recommended. Different irradiation conditions such as air kerma rate, x-ray tube design, x-ray system, and dosimeter operational modes affect the dosimeters' response by less than 3%. A dosimeter that complies with IEC standards and operates according to its specifications could be used at typical clinical irradiation conditions taking into account only corrections for the energy dependence of response. In this case, the error in dose accuracy is expected to be less than 3%.

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Electron density of tissues and breast cancer radiotherapy: a quantitative CT study

Kalef-Ezra

Karantanas

Koligliatis

et al. 1998

International Journal of Radiation Oncology*Biology*Physics

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A. Boziari

Radiation dose reduction in direct digital panoramic radiography

Energy dependence of TLD 100 and MCP-N detectors

Thermoluminescence Dosimetry for Quality Assurance in Radiation Therapy

Performance Evaluation of Diagnostic Radiology Dosimeters in Clinical and Calibration X-Ray Beams

Electron density of tissues and breast cancer radiotherapy: a quantitative CT study

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