Evaluation of a Direct Ion Storage dosimeter efficiency to measure dose during interventional cardiology procedures

Bergman  Nelson Sanchez Munoz; Carla Daruich de Souza; Silvio  Ricardo Pires; Adriano Henrique Pereira Barbosa; Regina   Bitelli Medeiros

doi:10.15392/bjrs.v10i3.2072

Autores/as

Bergman Nelson Sanchez Munoz Escola Paulista de Medicna ,
Carla Daruich de Souza IPEN , https://orcid.org/0000-0003-1335-8864 (no autenticado)
Silvio Ricardo Pires UNIFESP ,
Adriano Henrique Pereira Barbosa ,
Regina Bitelli Medeiros EPM ,

DOI:

https://doi.org/10.15392/bjrs.v10i3.2072

Palabras clave:

dosimetry, direct ions storage, ionization chamber, Intraintracardiac electrophysiology, occupational dose

Resumen

Intracardiac electrophysiological invasive procedures guided by fluoroscopy aim to study the cardiac depolarization process. Depending on the complexity of the clinical case, both patients and professionals are subjected to radiation for a prolonged period. This work evaluated if a direct ions storage (DIS) dosimeter could measure occupational doses in different regions of the physician's body during these procedures. Doses were monitored close to the left eye (LE), right eye (RE), extremity (left ankle), and thorax, as well as the environmental dose, positioning the dosimeter in the center of the equipment gantry. These doses were evaluated in 31 procedures using 01 DIS dosimeter in each region. The Mann-Whitney U test demonstrated that the values obtained in the different regions represent different samples, while the Spearman test demonstrated that there is no evidence that there is a correlation between the data recorded in the different regions. DIS was effective in recording the doses in the LE region and the doses of dispersed radiation (Arc), with the values obtained: (30 quartile / maximum): LE (0.07 / 0.20 mSv); Arc (0.38 / 1.53 mSv). It was not possible to compare occupational doses between different regions of the physician's body, limiting its use as a complementary monitor in the control of occupational doses.

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Biografía del autor/a

Carla Daruich de Souza, IPEN,

Principal Researche at KAERI - Korea Atomic Energy Research Institute

Professor and colaborator at IPEN

Referencias

SOUZA, C. D., ROSTELATO, M. E. C. M., ZEITUNI, C. A., MOURA, J. A., MOURA, E. S., FONSECA, K. and FEHER, A. Analysis of the necessary radioprotection procedures in manufacture of iodine-125 sources used in brachytherapy: A preliminary study. Progress in Nuclear Energy, v.53, p.66-72, 2011.

MUNOZ, B. N. S. Estudo de Monitoração das Doses do Médico nos Exames de Eletrofisiologia e Ablação Cardiaca Masters: Masters. Federal University of São Paulo 2021.

OGUZ, K. and YÜKSEL, M. DETERMINATION OF THE MINIMUM DETECTABLE DOSE AND THE EFFECT OF DIFFERENT FILTERS ON TLD-100H 260°C THERMOLUMINESCENCE PEAK, In: International Conference on Radiation Applications, 2020, Thessaloniki, Greece. Annals of International Conference on Radiation Applications.

MIRION. InstadoseTM, 2020. Available at: <https://www.mirion.com/services-consulting/instadose-dosimetry-services-x-ray-badges>. Last acessed: 22 may, 2020.

SOCIEDADE BRASILEIRA DE CARDIOLOGIA. Recomendações do Departamento de Arritmias e Eletrofisiologia Clínica (DAEC) da Sociedade Brasileira de Cardiologia para Indicações de Implante de Marcapasso Definitivo, Escolha do Modo de Estimulação e Indicações para Implante de Desfibrilador-Cardioversor Automático. Arq Bras Cardiol v.64, p.4, 1995.

SUN, Z., ABAZIZ, A. and YUSOF, A. K. Radiation-induced noncancer risks in interventional cardiology: optimisation of procedures and staff and patient dose reduction. Biomed Res Int, v.2013, p.976962, 2013.

BOR, D., CEKIRGE, S., TÜRKAY, T., TURAN, O., GÜLAY, M., ONAL, E. and CIL, B. Patient and staff doses in interventional neuroradiology. Radiat Prot Dosimetry, v.117, p.62-8, 2005.

FLETCHER, D. W., MILLER, D. L., BALTER, S. and TAYLOR, M. A. Comparison of four techniques to estimate radiation dose to skin during angiographic and interventional radiology procedures. J Vasc Interv Radiol, v.13, p.391-7, 2002.

JACOB, S., MICHEL, M., SPAULDING, C., BOVEDA, S., BAR, O., BRÉZIN, A. P., STREHO, M., MACCIA, C., SCANFF, P., LAURIER, D. and BERNIER, M.-O. Occupational cataracts and lens opacities in interventional cardiology (O'CLOC study): are X-Rays involved? BMC Public Health, v.10, p.537, 2010.

CIRAJ-BJELAC, O., REHANI, M., MINAMOTO, A., SIM, K. H., LIEW, H. B. and VANO, E. Radiation-Induced Eye Lens Changes and Risk for Cataract in Interventional Cardiology. Cardiology, v.123, p.168-171, 2012.

VANO, E., KLEIMAN, N. J., DURAN, A., ROMANO-MILLER, M. and REHANI, M. M. Radiation-associated Lens Opacities in Catheterization Personnel: Results of a Survey and Direct Assessments. Journal of Vascular and Interventional Radiology, v.24, p.197-204, 2013.

CONSELHO NACIONAL DE SAÚDE. RESOLUÇÃO Nº 466, DE 12 DE DEZEMBRO DE 2012., http://conselho.saude.gov.br/resolucoes/2012/Reso466.pdf, 2012.

SECRETARIA DE VIGILÂNCIA SANITÁRIA. Diretrizes de Proteção Radiológica em Radiodiagnóstico Médico e Odontológico. Portaria 453 de 01-06-1998., https://www.phymed.com.br/fisica-medica/site/textos/portaria453.PDF, 1998.

RANA, V., RUDIN, S. and BEDNAREK, D. Updates in the real-time dose tracking system (DTS) to improve the accuracy in calculating the radiation dose to the patients skin during fluoroscopic procedures, SPIE, 2013.

INTERNATIONAL ELECTROTECHNICAL COMMISSION. Medical electrical equipment https://webstore.iec.ch/publication/2603, 2019.

NATIONAL COUNCIL ON RADIATION PROTECTION AND MEASUREMENTS. Report No. 168 – Radiation Dose Management for Fluoroscopically-Guided Interventional Medical Procedures National Council on Radiation Protection and Measurements. 2010.

HAGA, Y., CHIDA, K., KAGA, Y., SOTA, M., MEGURO, T. and ZUGUCHI, M. Occupational eye dose in interventional cardiology procedures. Sci Rep, v.7, p.569, 2017.

EINSTEIN, A. J., MOSER, K. W., THOMPSON, R. C., CERQUEIRA, M. D. and HENZLOVA, M. J. Radiation Dose to Patients From Cardiac Diagnostic Imaging. Circulation, v.116, p.1290-1305, 2007.

EFSTATHOPOULOS, E. P., KATRITSIS, D. G., KOTTOU, S., KALIVAS, N., TZANALARIDOU, E., GIAZITZOGLOU, E., KOROVESIS, S. and FAULKNER, K. Patient and staff radiation dosimetry during cardiac electrophysiology studies and catheter ablation procedures: a comprehensive analysis. EP Europace, v.8, p.443-448, 2006.

TSAPAKI, V. Radiation dose in interventional cardiology. Imaging in Medicine, v.2, p.10, 2010.

VAÑÓ, E., GONZÁLEZ, L., BENEYTEZ, F. and MORENO, F. Lens injuries induced by occupational exposure in non-optimized interventional radiology laboratories. Br J Radiol, v.71, p.728-33, 1998.