Dosimetría in vivo con el uso de detectores OSLD nanoDot en tomografía computada multidetector cardíaca / In vivo dosimetry with the use of OSLD nanoDot detectors un cardiac multidetector computed tomography

Moreno Arnez, Ernesto (2021) Dosimetría in vivo con el uso de detectores OSLD nanoDot en tomografía computada multidetector cardíaca / In vivo dosimetry with the use of OSLD nanoDot detectors un cardiac multidetector computed tomography. Maestría en Física Médica, Universidad Nacional de Cuyo, Instituto Balseiro.

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Tipo de objeto:Tesis (Maestría en Física Médica)
Palabras Clave:Calibration; Calibración; Effective doses; Dosis efectivas; [OSLD; Dosímetro luminiscente estimulado ópticamente; NanoDot; Cardiac tomography; Tomografía cardíaca; Surface dose; Dosis en superficie]
Referencias:[1] Patient Safety. \Radiation Dose in X-Ray and CT Exams". En: American College of Radiology and Radiological Society of North America (April 2012) (2012). [2] Eugene C Lin. \Radiation risk from medical imaging". En: Mayo Clinic Proceedings. Vol. 85. 12. Elsevier. 2010, págs.. 1142-1146. [3] ICRP. Las Recomendaciones de la Comisión Internacional de Protección Radiológica. Publicación 103. Madrid, España: Sociedad Española de Protección Radiológica, 2007. [4] EJ Hall y DJ Brenner. \Cancer risks from diagnostic radiology". En: The British journal of radiology 81.965 (2008), págs.. 362-378. [5] Eric J Hall. \Is there a place for quantitative risk assessment?" En: Journal of Radiological Protection 29.2A (2009), A171. [6] Marco Brambilla y col. \Multinational data on cumulative radiation exposure of patients from recurrent radiological procedures: call for action". En: European radiology 30.5 (2020), págs.. 2493-2501. [7] Walter Huda y col. \Radiation-related cancer risks in a clinical patient population undergoing cardiac CT". En: American Journal of Roentgenology 196.2 (2011), W159-W165. [8] Walter Huda. \Radiation dosimetry in CT: the role of the manufacturer". En: Imaging Med 3.2 (2011). [9] Patricia Carrascosa y col. \Angiografía coronaria por tomografía computarizada multidetector con gatillado electrocardiográfico prospectivo. Análisis de la calidad de imagen y de la dosis de radiación". En: Revista argentina de cardiología 77.4 (2009), págs.. 259-267. [10] E. Vañó y col. \ICRP Publication 135: Diagnostic reference levels in medical imaging." En: Annals of the ICRP 46.1 (2017), págs.. 1-144. [11] Graciano Paulo y col. \Diagnostic Reference Levels based on clinical indications in computed tomography: a literature review". En: Insights into Imaging 11.1 (2020), págs.. 1-9. [12] AAPM. Size Specic Dose Estimates (SSDE) in Pediatric and Adult Body CT Examinations. Report No 204. American Association of Physicists in Medicine, 2011. [13] Noreña Paula T. \Dosimetría Interna con el Uso de OSL NanoDot". Maestría en Física Médica. Instituto Balseiro, 2016. [14] Gonzales Vanesa E. \Dosimetría in vivo con el Uso de OSL NanoDot". Maestría en Física Médica. Instituto Balseiro, 2016. [15] Rojas José A. \Dosimetría in vivo con el Uso de OSL NanoDot en Radioterapia con Intensidad Modulada". Maestría en Física Médica. Instituto Balseiro, 2019. [16] LANDAUER. nanoDot Dosimeter. Patient Monitoring Solutions. 2019. url: landauer.com. [17] Kazuki Takegami y col. \Practical calibration curve of small-type optically stimulated luminescence (OSL) dosimeter for evaluation of entrance skin dose in the diagnostic X-ray region". En: Radiol. Phys. Technol. 8 (2015), págs.. 286-294. [18] Kazuki Takegami y col. \Entrance surface dose measurements using a small OSL dosimeter with a computed tomography scanner having 320 rows of detectors". En: Radiol. Phys. Technol. 10.1 (mar. de 2017). [19] S. B. Scarboro y S. F. Kry. \Characterisation of Energy Response of Al2O3:C Optically Stimulated Luminescent Dosimeters (OSLDs) using Cavity Theory". En: Radiation protection dosimetry 153.1 (2013), págs.. 23-31. [20] Sarah B. Scarboro y col. \Characterization of the nanoDot OSLD dosimeter in CT". En: Medical Physics 42.4 (abr. de 2015). [21] Sarah B. Scarboro y col. \Calibration strategies for use of the nanoDot OSLD in CT applications". En: J Appl Clin Med Phys 20.1 (2019), pags. 331-339. [22] Stephen F. Kry y col. \AAPM TG 191: Clinical use of luminescent dosimeters: TLDs and OSLDs". En: Med Phys. 47.2 (feb. de 2020). [23] Hatem Alkadhi y Sebastian Leschka. \Radiation dose of cardiac computed tomography{what has been achieved and what needs to be done". En: European radiology 21.3 (2011), págs.. 505-509. [24] Diagnostic Reference Levels (DRLs). International Atomic Energy Agency (IAEA). 2020. url: https://www.iaea.org/resources/rpop/health- professionals/radiology/diagnostic-reference-levels. [25] IAEA. Status of Computed Tomography Dosimetry for Wide Cone Beam Scanners. Human Health Reports No 5. Vienna, Austria: International Atomic Energy Agency, 2011. [26] Cynthia H. McCollough y col. \CT Dose Index and Patient Dose: They Are Not the Same Thing". En: Radiology 259.2 (2011). [27] Menzel H., Schibilla H. y Teunen D. European guidelines on quality criteria for computed tomography. Publication No. EUR 16262 EN. Luxembourg, 2000. [28] Akmal Sabarudin y Zhonghua Sun. \Radiation dose measurements in coronary CT angiography". En: World journal of cardiology 5.12 (2013), págs.. 459-464. [29] Cynthia McCollough y col. \The Measurement, Reporting, and Management of Radiation Dose in CT". En: Report 96 of AAPM Task Group 23.23 (2008), págs. 1-28. [30] AAPM. Comprehensive Methodology for the Evaluation of Radiation Dose in X-Ray Computed Tomography. Report No 111. American Association of Physicists in Medicine, 2010. [31] EG Yukihara y SWS McKeever. \Optically stimulated luminescence (OSL) dosimetry in medicine". En: Physics in Medicine & Biology 53.20 (2008), R351. [32] Richard H Bube y col. \Photoconductivity of solids". En: (1978). [33] Barry N. Taylor y Chris E. Kuyatt. Guidelines for Evaluating and Expressing the Uncertainty of NIST Measurement Results. NIST Technical Note 1297. National Institute of Standards y Technology, 1994. [34] IAEA. Measurement Uncertainty - A Practical Guide for Secondary Standards Dosimetry Laboratories. IAEA-TECDOC-1585. Vienna, Austria: International Atomic Energy Agency, 2008. [35] T. G. Flohr y col. \Image reconstruction and image quality evaluation for a 64-slice CT scanner with z- flying focal spot". En: Med. Phys. 32.8 (2005). [36] Siemens AG. SOMATOM Denition AS. Manual de propietario del sistema - Informe de dosimetría y calidad de imagen. Muenchen, Austria, 2018. [37] IAEA. Absorbed Dose Determination in Photon and Electron Beams. Technical Reports Series TRS 277. Vienna, Austria: International Atomic Energy Agency, 1987. [38] IAEA. Dosimetry in Diagnostic Radiology: An International Code of Practice. Technical Reports Series TRS 457. Vienna, Austria: International Atomic Energy Agency, 2007. [39] IAEA. Absorbed Dose Determination in External Beam Radiotherapy: An international Code of Practice for Dosimetry based on Standards of Absorbed Dose to Water. Technical Reports Series TRS 398. Vienna, Austria: International Atomic Energy Agency, 2000. [40] Landauer. Manual de usuario microStar v.4.3. Glenwood Illinois, Estados Unidos de America, 2012. [41] Chester S Reft. \The energy dependence and dose response of a commercial optically stimulated luminescent detector for kilovoltage photon, megavoltage photon, and electron, proton, and carbon beams". En: Medical physics 36.5 (2009), págs.. 1690-1699. [42] Rani M. Al-Senan y Mustapha R. Hatab. \Characteristics of an OSLD in the diagnostic energy range". En: Medical Physics 38.7 (jul. de 2011). [43] Louise Giansante y col. \Organ doses evaluation for chest computed tomography procedures with TL dosimeters: Comparison with Monte Carlo simulations". En: J Appl Clin Med Phy 20.1 (2019). [44] Frank Herbert Attix. Introduction to radiological physics and radiation dosimetry. John Wiley & Sons, 2008. [45] D. R. White y col. \Report 44". En: Journal of the International Commission on Radiation Units and Measurements 23.1 (1989). [46] C.-M. Ma. Chaira y col. \AAPM TG 61: Protocol for 40{300 kV x-ray beam dosimetry in radiotherapy and radiobiology". En: Med. Phys 28.6 (jun. de 2001). [47] Muhammad Yusuf y col. \Characterization of the Optically Stimulated Luminescence nanoDot for CT Dosimetry". En: Life Science Journal 11.2 (2014). [48] J. H. Hubbell y S. M. Seltzer. Tables of X-Ray Mass Attenuation Cofficients and Mass Energy-Absorption Coefficients from 1 keV to 20 MeV for Elements Z = 1 to 92 and 48 Additional Substances of Dosimetric Interest. National Institute of Standards y Technology (NIST). 2004. url: https://www.nist. gov/pml/x-ray-mass-attenuation-coefficients. [49] Juliana Cristina Martins. \Lung dose estimates for computed tomography procedures". Master of Science Degree. University of Sao Paulo, 2015. [50] Faiz M Khan y John P Gibbons. Khan's the physics of radiation therapy. Lippincott Williams & Wilkins, 2014. [51] Thomas M. Griglock y col. \Determining Organ Doses from CT with Direct Measurements in Postmortem Subjects". En: Radiology. 277.2 (2015). [52] Da Zhang y col. \A method to acquire CT organ dose map using OSL dosimeters and ATOM anthropomorphic phantoms". En: Medical physics 40.8 (2013), pág.. 081918. [53] Mohammad Rawashdeh y col. \Establishment of diagnostic reference levels in cardiac computed tomography". En: J Appl Clin Med Phys 20.10 (2019), págs. 181-186. [54] P. C. Shrimpton y col. \Doses from Computed Tomography (CT) Examinations in the UK { 2011 Review". En: Public Health England (2014). [55] Akmal Sabarudin, Zhonghua Sun y Ahmad Khairuddin Md Yusof. \Coronary CT angiography with single-source and dual-source CT: Comparison of image quality and radiation dose between prospective ECG-triggered and retrospective ECG-gated protocols". En: International Journal of Cardiology 168 (2013), págs.. 746-753. [56] Nicolo Schicchi y col. \In vivo radiation dosimetry and image quality of turbo- ash and retrospective dual-source CT coronary angiography". En: La radiologia medica 125.2 (2020), págs. 117-127. [57] Sjirk J. Westra y col. \Entrance skin dosimetry and size-specic dose estimate from pediatric chest CTA". En: Journal of cardiovascular computed tomography 8.2 (2014), págs. 97-107.
Materias:Medicina > Dosimetría
Divisiones:FUESMEN
Código ID:956
Depositado Por:Marisa G. Velazco Aldao
Depositado En:30 Jul 2021 13:54
Última Modificación:30 Jul 2021 13:56

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