Predrag Bozovic scite author profile

Predrag Bozovic

5Publications

19Citation Statements Received

37Citation Statements Given

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Affiliations

University of Belgrade, Institute of Nuclear Physics

Publications

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Patient doses in computed tomography: An assessment of local diagnostic reference levels in a large teaching hospital

et al. 2012

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This paper presents an estimation of local diagnostic reference levels in computed tomography in a large teaching hospital. Local diagnostic reference levels, expressed in terms of volume weighted computed tomography dose index and dose-length product, were estimated for three most frequent adult computer tomography examinations: head, abdomen and pelvis combined, and thorax. The established local diagnostic reference levels values were similar or slightly higher compared to the available guidelines, indicating the possibility for optimization of current practice. Analyzing the protocols used here and recently published studies on dose reduction in computed tomography, a dose-reduction technique, was proposed to decrease tube current values in all three examinations. However, the optimization should be restricted only to standard-sized patients

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Occupational Eye Lens Dose Estimated Using Whole-Body Dosemeter in Interventional Cardiology and Radiology: A Monte Carlo Study

Bozovic

Ciraj-Bjelac

Petrović

2019

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Medical personnel performing interventional procedures in cardiology and radiology is considered to be a professional group exposed to high doses of ionizing radiation. Reduction of the eye lens dose limit made its assessment in the interventional procedures one of the most challenging topics. The objective of this work is to assess eye lens doses based on the whole-body doses using methods of computational dosimetry. Assessment included different C-arm orientations (PA, LAO and RAO), tube voltages (80 –110 kV) and efficiency of different combinations of protective equipment used in interventional procedures. Center position at the height of the thyroid gives best estimate of eye lens dose, with spreads of 11% (13%), 13% (17%) and 14% (13%) for the left (right) eye lens. The conversion factors of 1.03 (0.83), 1.28 (1.06) and 1.36 (1.06) to convert whole body to eye lens dose were derived for positions of first operator, nurse and radiographer, respectively. The eye lens dose reduction factors for different combinations of applied protective equipment are 178, 5 and 6, respectively.

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Eye Lens Exposure to Medical Staff Performing Electrophysiology Procedures: Dose Assessment and Correlation to Patient Dose

Ciraj-Bjelac

Antić

Selakovic

et al. 2016

Radiat Prot Dosimetry

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The purpose of this study was to assess the patient exposure and staff eye dose levels during implantation procedures for all types of pacemaker therapy devices performed under fluoroscopic guidance and to investigate potential correlation between patients and staff dose levels. The mean eye dose during pacemaker/defibrillator implementation was 12 µSv for the first operator, 8.7 µSv for the second operator/nurse and 0.50 µSv for radiographer. Corresponding values for cardiac resynchronisation therapy procedures were 30, 26 and 2.0 µSv, respectively. Significant (p < 0.01) correlation between the eye dose and the kerma-area product was found for the first operator and radiographers, but not for other staff categories. The study revealed eye dose per procedure and eye dose normalised to patient dose indices for different staff categories and provided an input for radiation protection in electrophysiology procedures.

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Utilizing Monte Carlo simulations in estimation of occupational eye lens dose based on whole body dosemeter in interventional cardiology and radiology

Bozovic¹,

Ciraj-Bjelac²,

Petrović³

et al. 2018

NUCL TECH RAD PROT

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Occupational Dose Assessment in Interventional Cardiology in Serbia

Kaljević

Ciraj-Bjelac

Stankovic

et al. 2015

Radiat Prot Dosimetry

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The objective of this work is to assess the occupational dose in interventional cardiology in a large hospital in Belgrade, Serbia. A double-dosimetry method was applied for the estimation of whole-body dose, using thermoluminescent dosemeters, calibrated in terms of the personal dose equivalent Hp(10). Besides the double-dosimetry method, eye dose was also estimated by means of measuring ambient dose equivalent, H*(10), and doses per procedure were reported. Doses were assessed for 13 physicians, 6 nurses and 10 radiographers, for 2 consequent years. The maximum annual effective dose assessed was 4.3, 2.1 and 1.3 mSv for physicians, nurses and radiographers, respectively. The maximum doses recorded by the dosemeter worn at the collar level (over the apron) were 16.8, 11.9 and 4.5 mSv, respectively. This value was used for the eye lens dose assessment. Estimated doses are in accordance with or higher than annual dose limits for the occupational exposure.

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Predrag Bozovic

Patient doses in computed tomography: An assessment of local diagnostic reference levels in a large teaching hospital

Occupational Eye Lens Dose Estimated Using Whole-Body Dosemeter in Interventional Cardiology and Radiology: A Monte Carlo Study

Eye Lens Exposure to Medical Staff Performing Electrophysiology Procedures: Dose Assessment and Correlation to Patient Dose

Utilizing Monte Carlo simulations in estimation of occupational eye lens dose based on whole body dosemeter in interventional cardiology and radiology

Occupational Dose Assessment in Interventional Cardiology in Serbia

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