METHODOLOGY FOR DATA COLLECTION IN SIMULATED IRRADIATIONS USING MONTE CARLO TECHNIQUES ON DICOM IMAGES FOR X-RAY FLUORESCENCE EMISSIONS LOCALIZATION IN HIGH ATOMIC NUMBER MATERIALS

Nicolás E. Martín; F. Malano; Miguel Sofo Haro; M. Valente

doi:10.31527/analesafa.2024.35.4.95

Anales (Asociación Física Argentina) (Dec 2024)

METHODOLOGY FOR DATA COLLECTION IN SIMULATED IRRADIATIONS USING MONTE CARLO TECHNIQUES ON DICOM IMAGES FOR X-RAY FLUORESCENCE EMISSIONS LOCALIZATION IN HIGH ATOMIC NUMBER MATERIALS

Nicolás E. Martín,
F. Malano,
Miguel Sofo Haro,
M. Valente

Affiliations

Nicolás E. Martín: 1,2,41Instituto de Física Enrique Gaviola, CONICET, FAMAF, UNC, Córdoba, 5000, Argentina2Laboratorio de Investigaciones e Instrumentación en Física Aplicada a la Medicina e Imágenes por Rayos X -LIIFAMIRx⃝, FAMAF,Universidad Nacional de Córdoba, Córdoba, 5000, Argentina
F. Malano: Centro de Física e Ingeniería en Salud, CFIS &, Depto. de Ciencias Físicas, Universidad de la Frontera, Temuco, 4780000, Chile.
Miguel Sofo Haro: 1Instituto de Física Enrique Gaviola, CONICET, FAMAF, UNC, Córdoba, 5000, Argentina Argentina3Reactor Nuclear RA0, Comisión Nacional de Energía Atómica.
M. Valente: 1Instituto de Física Enrique Gaviola, CONICET, FAMAF, UNC, Córdoba, 5000, Argentina 2Laboratorio de Investigaciones e Instrumentación en Física Aplicada a la Medicina e Imágenes por Rayos X -LIIFAMIRx⃝, FAMAF,Universidad Nacional de Córdoba, Córdoba, 5000, Argentina Centro de Física e Ingeniería en Salud, CFIS &, Depto. de Ciencias Físicas, Universidad de la Frontera, Temuco, 4780000, Chile.

DOI: https://doi.org/10.31527/analesafa.2024.35.4.95
Journal volume & issue: Vol. 35, no. 4
pp. 95 – 102

Abstract

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X-ray Fluorescence Computed Tomography (XFCT) has emerged as a promising modality owing to the availability of high-energy polychromatic X-ray sources in the laboratory. As compared to other modalities, XFCT offers advantages such as easy accessibility, low instrumentation costs, and efficient operation. This approach allows for simultaneous transmission computed tomography (CT) along with XFCT, providing multimodal/multiplexed in vivo images and expanding applications with metallic probes such as gold nanoparticles (AuNPs). Despite its benefits, CT+XFCT imaging poses challenges, particularly in minimizing X-ray dose. Research into accurate methods for estimating the location of X-ray fluorescence emissions has led to various techniques and developments, applied both experimentally and through simulations.This work introduces an innovative methodology based on X-ray energy dispersion spectrometry, using DICOM images to create probability maps of fluorescence emission locations. We applied this methodology to localize nanoparticles in computer-generated phantoms, demonstrating its feasibility and versatility through Monte Carlo simulations and correlation with micro-tomography. This methodology emerges as a promising tool for obtaining functional information in complex biomedical environments.

Published in Anales (Asociación Física Argentina)

ISSN: 0327-358X (Print); 1850-1168 (Online)
Publisher: CEILAP-UNIDEF-CONICET-CITEDEF
Country of publisher: Argentina
LCC subjects: Science: Physics
Website: https://anales.fisica.org.ar/

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