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Organ Dose Measurement in Computed Tomography Using Thermoluminescence Dosimeter in Locally Developed Phantoms

Publish place: Iranian Journal of Medical Physics، Vol: 16، Issue: 2
Publish Year: 1398
نوع سند: مقاله ژورنالی
زبان: English
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https://civilica.com/doc/1738855

شناسه ملی سند علمی:

JR_IJMP-16-2_002

تاریخ نمایه سازی: 5 شهریور 1402

Abstract:

Introduction: Organ dose estimation using thermoluminescence dosimeter (TLD) is known to be a standard, although many other methods, such as simulation software, optically stimulated luminescent dosimeters, and photodiodes are still in use. This study aimed at directly measuring mean organ doses to the selected organs in the head/neck, chest, and abdominal regions from four computed tomography (CT) units in Lagos, south-west of Nigeria. Material and Methods: This study was conducted on locally constructed inhomogeneous phantoms to measure mean organ doses to the head/neck, chest, and abdominopelvic regions from CT units in the Lagos metropolis, Nigeria. Lithium fluoride doped with magnesium and titanium (LiF: Mg, Ti) TLD was used for the measurement. Statistical analysis was performed by IBM SPSS (version ۲۰). Results: Validation of the designed phantoms was below ± ۲۰% kVp and mAs parameters among the CT units, which was statistically different with regard to the observed dose discrepancies. Generally, a one-way ANOVA showed that there was a statistically significant difference in the investigated mean organ dose (P = ۰.۰۴۳). The comparison of the obtained results from this study with those of other studies revealed that there was no statistically significant difference in the TLDs (P > ۰.۰۵). The maximum relative difference in the dose was < ۲۰۰%. Conclusion: The designed phantoms seemed to be useful for CT dose validation and could be used to validate simulation software in areas where readymade phantoms are not available.

Keywords:

Thermoluminescent-dosimeter , Computed Tomography Phantom , Organ , organ dose

Authors

Michael Akpochafor

Department of Radiation Biology, Radiotherapy and Radiodiagnosis

SAMUEL ADENEYE

Department of Radiation Biology, Radiotherapy, Radiodiagnosis and Radiography, College of Medicine, Lagos University Teaching Hospital, Idi-Araba, Lagos, Nigeria

Muhammad Habeebu

Department of Radiation Biology, Radiotherapy, Radiodiagnosis and Radiography, College of Medicine, Lagos University Teaching Hospital, Idi-Araba, Lagos, Nigeria

AKINTAYO OMOJOLA

Department of Radiology, Medical Physics Unit, Federal medical Centre, Asaba.

Nusirat Adedewe

Department of Radiotion biology, radiotherapy, radiodiagnosis, Faculty of clinical sciences, University of Lagos.

Aderonke Adedokun

Department of Radiation Biology and Radiotherapy, College of Medicine, University of Lagos.

Dare Adewa

Department of radiation biology, radiotherapy, radiodiagnosis, Faculty of clinical sciences, university of lagos, nigeria

SUNDAY AJIBADE

Radiation Biology, Radiotherapy, Radiodiagnosis, and Radiography, Clinical Sciences, College of Medicine, University of Lagos, Lagos State, Nigeria

Victor Ekpo

Department of radiation biology, radiotherapy, radiodiagnosis, faculty of clinical sciences, university of lagos, nigeria

Moses Aweda

Department of Radiation Biology, Radiotherapy, Radiodiagnosis and Radiography, College of Medicine, Lagos University Teaching Hospital, Idi-Araba, Lagos, Nigeria

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  • ReferencesUnited Nations Scientific Committee on the Effects of Atomic Radiation ...
  • International Commissioning on Radiological Protection and Measurement (ICRP). Managing patient ...
  • Vilar-Palop J, Vilar J, Hernández-Aguado I, González-Álvarez I, Lumbreras B. ...
  • Jones JG, Mills CN, Mogensen MA, Lee CI. Radiation dose ...
  • De Mauri A, Brambilla M, Chiarinotti D, Matheoud R, Carriero ...
  • Griglock TM, Sinclair L, Mench A, Cormack B, Bidari S, ...
  • Martin Caon, Giovanni Bibbo , John Pattison. A comparison of ...
  • Martin J Butson, Rebecca Elferink, Tsang Cheung, Peter K N ...
  • Liu H, Gu J, Caracappa PF, Xu XG. Comparison of ...
  • Ohno T, Araki F, Onizuka R, Hioki K, Tomiyama Y, ...
  • Marshall NW, Faulkner K. Normalized organ dose data measured as ...
  • Dabin J, Mencarelli A, McMillan D, Romanyukha A, Struelens L, ...
  • Robert J Staton, Choonik Lee, Choonsik Lee, Matt D Williams, ...
  • Nowik P, Bujila R, Kull L, Andersson J, Poludniowski G.. ...
  • Winslow J, Hyer D, Fisher R, Tien C, Hintenlang D. ...
  • Akpochafor MO, Aweda MA, Ibitoye ZA, Adeneye SO. Thermoluminescent dosimetry ...
  • American College of Radiology (ACR). Computed tomography quality control manual. ...
  • Ekpo ME, Obed RI, Omojola AD. Patient dose estimation using ...
  • Groves A, Owen E, Courtney M, Yates J, Goldstone E, ...
  • Nishizawa K, Maruyama T, Takayama M, Okada M, Hachiya J, ...
  • Sinclair L, Griglock TM, Mench A, Lamoureux R, Cormack B, ...
  • Akpochafor M, Omojola A, Habeebu M, Ezike J, Adeneye S, ...
  • Ngaile JE, Msaki PK.. Estimation of Patient Organ Doses from ...
  • Poletti JL, Williamson BDP, Le Heron JC. Radiation dosimetry descriptors ...
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