Impact of the counts density of calibration image and the image reconstruction parameters in 131I SPECT image quantification
DOI:
https://doi.org/10.15392/bjrs.v6i1.332Keywords:
SPECT, calibration, uncertainties, quantification accuracy.Abstract
Iodine-131 (131I) has been used for diagnosis and therapy in Nuclear Medicine Centers in Brazil for more than 50 years. The present study aims to investigate the impact of the counts density and the reconstruction parameters in the calibration factor determination and in the image quantification, considering the reality of Brazilian dosimetry studies. For this task, images were quantified using calibration images with high and low counts density and reconstructed adopting two different parameters approaches, usually employed in patients images. SPECT quantification results presented in this work follow other previous 131I SPECT studies and suggest that, due to the long time interval between the first e last image, as required by the Brazilian guideline, the image quantification accuracy can be improved if the counts density in calibration measurements is considered.
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DEWARAJA YK, LJUNGBERG M, GREEN AJ, ZANZONICO PB, FREY EC, SNMMI MIRD Committee, et al. MIRD pamphlet No. 24: Guidelines for quantitative 131I SPECT in dosimetry applications. J. Nucl. Med. v. 54, p. 2182–8, 2013.
CARVALHO S. Avaliação dos métodos de dosimetria para radioiodoterapia: monitoração de dose externa e quantificação absoluta de imagens cintilográficas. Instituto de Radioproteção e Dosimetria; 2014.
LUSTER M, CLARKE SE, DIETLEIN M, LASSMANN M, LIND P, OYEN WJG, et al. Guidelines for radioiodine therapy of differentiated thyroid cancer. Eur. J. Nucl. Med. Mol. Imaging. v. 35, p.1941–59, 2008.
KHFAN S, WAXMAN A, NAGARAJ N. Optimization of post ablative I-131 scintigraphy: Comparison of 2 day vs. 7 day post therapy study in patients with differentiated thyroid cancer (DTC). J. Nucl. Med. 1994.
HUNG B-T, HUANG S-H, HUANG Y-E, WANG P-W. Appropriate time for post-therapeutic I-131 whole body scan. Clin. Nucl. Med. v. 34, p.339–42, 2009
DEWARAJA YK, FREY EC, SGOUROS G, BRILL AB, ROBERSON P, ZANZONICO PB, et al. MIRD pamphlet No. 23: quantitative SPECT for patient-specific 3-dimensional dosimetry in internal radionuclide therapy. J. Nucl. Med. v. 53, p.1310–25, 2012.
SIEGEL J A, THOMAS SR, STUBBS JB, STABIN MG, HAYS MT, KORAL KF, et al. MIRD pamphlet no. 16: Techniques for quantitative radiopharmaceutical biodistribution data acquisition and analysis for use in human radiation dose estimates. J. Nucl. Med. v. 40, p.37S–61, 1999.
SAÚDE M DA. Protocolos clínicos e Diretrizes terapêuticas em oncologia. Brazil; 2014. Availa-ble from: http://conitec.gov.br/index.php/diretrizes-diagnosticas-e-terapeuticas-em-oncologia
BIANCARDI R. Protocolo para adaptação de técnicas de dosimetria interna para planejamento de doses individualizadas de 131i em pacientes pediátricos. Instituto de Radioproteção e Dosimetria, 2011.
VAN GILS CAJ, BEIJST C, VAN ROOIJ R, DE JONG HWAM. Impact of reconstruction parameters on quantitative I-131 SPECT. Phys. Med. Biol. v. 61, p.5166–82, 2016.
GROOTJANS W, MEEUWIS APW, SLUMP CH, DE GEUS-OEI L-F, GOTTHARDT M, VISSER EP. Performance of 3DOSEM and MAP algorithms for reconstructing low count SPECT acquisitions. Z. Med. Phys.v. 26, p.311–22, 2015.
BARROS PP, METELLO LF, CAMOZZATO TSC, VIEIRA DMS. Optimization of OSEM parameters in MPI reconstruction Optimization of OSEM parameters in myocardial perfusion imag-ing reconstruction as a function of body mass index: a clinical approach. Radiol Bras. v. 48, p.;305–13, 2015.
SANDSTRÖM M, GARSKE U, GRANBERG D, SUNDIN A, LUNDQVIST H. Individualized dosimetry in patients undergoing therapy with (177)Lu-DOTA-D-Phe (1)-Tyr (3)-octreotate. Eur. J. Nucl. Med. Mol. Imaging v. 37, p.212–25, 2010.
RITT P, VIJA H, HORNEGGER J, KUWERT T. Absolute quantification in SPECT. Eur. J. Nucl. Med. Mol. Imaging, v. 38, Suppl 1:S69-77, 2011.
GUERRIERO F, FERRARI M, BOTTA F. Kidney Dosimetry in 177 Lu and 90 Y Peptide Receptor Radionuclide Therapy: Influence of Image Timing, Time-Activity Integration Method, and Risk Factors. BioMed Res, 2013.
SHCHERBININ S, CELLER A, BELHOCINE T, VANDERWERF R, DRIEDGER A. Accuracy of quantitative reconstructions in SPECT/CT imaging. Phys. Med. Biol. v. 53, p.4595–604, 2008.
SONG N, DU Y, HE B, FREY EC. Development and evaluation of a model-based downscatter compensation method for quantitative I-131 SPECT. Med. Phys, v. 38, p.3193–204, 2011.
DEWARAJA YK, KORAL KF, FESSLER JA. Regularized reconstruction in quantitative SPECT using CT side information from hybrid imaging. Phys. Med. Biol, v.55, p.2523–39, 2010.
TROTTER DEG, JASZCZAK RJ, BOWSHER JE, AKABANI G, GREER KL. High-resolution absolute SPECT quantitation for I-131 distributions used in the treatment of lymphoma: a phantom study. IEEE Trans. Nucl. Sci. p. 707–14, 2001.
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