Comparative analysis of image quality parameters and spatial resolution of three Small Animal  PET scanner in Brazil

Rodrigo Modesto Gadelha Gontijo; Andréa Vidal Ferreira; Daniele Faria; Carlos Alberto Buchpiguel; Samuel Greggio; Gianina Venturin; Jader Costa; Juliana Silva; Marcelo Mamede

doi:10.15392/2319-0612.2023.2306

Authors

GONTIJO, R.M.G. UFMG https://orcid.org/0000-0001-6479-3087
FERREIRA, A. V. CDTN/CNEN
FARIA, D.P. HCFMUSP
BUCHIPIGUEL, C.A. HCFMUSP
GREGGIO, S. INSCER PUC-RS
VENTURIN, G.T. INSCER PUC-RS
COSTA, J.C. INSCER PUC-RS
SILVA J.B. CDTN/CNEN
MAMEDE, M. UFMG

DOI:

https://doi.org/10.15392/2319-0612.2023.2306

Keywords:

Image Quality, preclinical PET, NEMA NU 4-2008

Abstract

This study evaluated Image Quality (IQ) parameters and spatial resolution (SR) of Triumph® LabPET systems installed in three different Brazilian preclinical molecular imaging centers. A comprehensive evaluation of the PET scanner intrinsic parameters is important to optimize the acquired images, providing more reliable qualitative and quantitative analyses. Experiments were carried out at the centers: C1 - Molecular Imaging Laboratory of the CDTN/CNEN; C2 - Laboratory of Nuclear Medicine of HCFMUSP; C3 - Preclinical Research Center of the Brain Institute at PUC-RS. IQ phantom PET images were acquired as recommended in NEMA NU 4-2008 standard. Image reconstructions were performed in each system using the same reconstruction protocol. Data was processed using PMOD® software. The IQ parameters: (i) uniformity, (ii) spill-over ratio (SOR) and (iii) recovery coefficients (RC) were evaluated and compared. For Uniformity test, the percentage standard deviations of mean activity concentration were 7.8%; 7.3% and 6.4% for Centers 1, 2 and 3 respectively. Cold chambers RSO values in the systems 1, 2 and 3 were respectively 0.16, 0.19 and 0.21 for water; 0.26; 0.28 and 0.30 for air. The RC’s for rod diameters from 1 to 5 mm ranged from 0.08 to 0.91 for the three centers. Results revealed that the three PET systems have appropriate quality parameters for pre-clinical studies, presenting values compatible with international standards. This study was able to reveals the performance of preclinical PET system of different Brazilian imaging centers and may support the standardization of a National Quality Control Program for Small Animal PET scanners.

Views: 273
XML Downloads: 25
PDF Downloads: 142

Downloads

Download data is not yet available.

References

YAO R.; LECOMTE R.; CRAWFORD E. Small-Animal PET: What is it, and why do we need it? Journal of Nuclear Medicine Technology. Vol. 40 nº3, pp.157-165. 2012.

GONTIJO, R. M. G. Proposta de Programa de Garantia da Qualidade para Imagem Molecular Pré-Clínica. 2019. 275 f. Doctoral Thesis (Doutorado em Ciência e Tecnologia das Radiações, Minerais e Materiais) – Centro de Desenvolvimento da Tecnologia Nuclear, Comissão Nacional de Energia Nuclear, Belo Horizonte, In Portuguese, 2019.

IAEA - International Atomic Energy Agency (IAEA). Quality Control Guidance for Nuclear Medicine Equipment. Guidelines of Radiation and Nuclear Safety Authority – STUK, 2010.

NEMA - National Electrical Manufacturers Association. Performance Measurements of Small Animal Positron Emission Tomographs. Rosslyn VA; 2008 Standards Publication NU 4-2008.

GONTIJO, R. M. G., FERREIRA, A. V., SILVA, J. B., MAMEDE, M. Quality control of small animal PET scanner: The Brazilian Scenario. Brazilian Journal of Radiation Sciences. vol. 08 (2). pp. 1-09. 2020.

GONTIJO, R. M. G., FERREIRA, A. V., SOUZA, G. C. A., BARBOSA, J. V. C., MAMEDE, M. Current Brazilian Scenario about Quality Assurance in preclinical PET imaging systems. In:

INTERNATIONAL NUCLEAR ATLANTIC CONFERENCE, 2021 Virtual meeting. An-nals Brazil, November 29 – December 2, 2021.

BERGERON, M. et al. Performance Evaluation of the LabPET APD-Based Digital PET Scan-ner. IEEE Transactions on Nuclear Science. 56(1). 2008.

BERGERON, M. et al. Imaging performance of LabPET APD-based digital PET scanners for

preclinical research. Phys. Med. Biol. 59. 2014.

GE Healthcare Technologies, 2011. Triumph Service Guide Technical Publication. Revision Draft 6, Copyright. Available in: <http://www.gehealthcare.com> 2011.

Gamma Medica-Ideas. User Manual: Positron Emission Tomography (PET) Scanner Software - Manual for Acquisition and Processing of PET Images from the LABPET System. 2010.

TETRAULT, M.A. et al., System Architecture of the LabPET Small Animal PET Scanner. IEEE Transactions on Nuclear Science. 55(5), 2546-2550, 2008.

FONTAINE, R. et al. The hardware and signal processing architecture of LabPETTM, a small animal APD-based digital PET scanner. IEEE Transactions on Nuclear Science. 56, 3-9. 2009.

Quality Assurance in Radiology and Medicine (QRM). (2008). Micro-PET HotRod Phan-tom NEMA-NU4. Disponível em: < QRM-MicroPET-Hotrod_V2.cdr>. Acesso em: 11 de agosto de 2023.

SOUZA, G. C. A., GONTIJO, R. M. G., SILVA, J. B., MAMEDE, M., FERREIRA, A. V. Spatial resolution of a preclinical PET tomograph. Brazilian Journal of Radiation Sciences. 09(01A). pp. 01-18. 2021.

GONTIJO, R. M. G., FERREIRA, A. V., SILVA, J. B., MAMEDE, M. Image quality

assessment using NEMA NU 4-2008 standards in small animal PET scanner. Brazilian Jour-nal of Radiation Sciences. 07(2A). pp. 1-13. 2019.

GONTIJO, R. M. G., FERREIRA, A.V., SILVA, J.B., MAMEDE, M. Performance based on NEMA NU-4 2008 Standard of CDTN/CNEN’s Small Animal PET Scanner. Brazilian Jour-nal of Radiation Sciences. 10(03), 01-17. 2022.

PRASAD, R., RATIB, O., ZAID, H. NEMA NU-04-based Performance Characteristics of the LabPET-8TM Small Animal PET Scanner. Physics in Medicine and Biology. 56(20), 6649-6664. 2011.

GONTIJO, R.M.G., FERREIRA, A.V., SOUZA, G.C.A., MENDES, B.M., SILVA, J.B., MAMEDE, M. 2020. Image quality evaluation of a small animal PET scanner. Brazilian Journal of Radiation Sciences. 8(1), 01-13. 2020.

GONTIJO, R.M.G., FERREIRA, A.V., SILVA, J.B., MAMEDE, M. 2022. Proposal of Bra-zilian National Program for Quality Control in the small animal PET scanners. Brazilian Journal of Radiation Sciences. 10(3B), 01-07. 2022.