Abstract
BackgroundThe commonly used NEMA IEC Body phantom has a number of defects, hindering its application for detecting micro-lesions and measuring the performance parameters of computed tomography (CT). This study aimed to propose a PET/CT phantom designed by National Institute of Metrology (NIM), China, which is capable of simultaneously testing the performance of PET and CT systems, and to evaluate the quality of imaging.MethodsThe phantom developed in the present study, the NIM PET/CT phantom, is composed of a PET imaging module and a CT imaging module, and these modules are connected together through bolts, which can simultaneously measure the imaging performance of PET and CT systems. Hot spheres were filled with 4:1 sphere-to-background activity concentration using 18F-fluorodeoxyglucose (18F-FDG), and cold spheres were filled with non-radioactive water. We compared the results of imaging obtained from the NIM PET/CT phantom and the NEMA IEC Body phantom to assess their diagnostic efficacy. In order to evaluate the generalization ability of the NIM PET/CT phantom, three different PET/CT systems were used to scan on the same scanning protocol. To evaluate the effects of image reconstruction algorithms on image quality assessment, ordered subset expectation maximization (OSEM), OSEM-point-spread function (PSF), OSEM-TOF, and OSEM-PSF-TOF algorithms were employed.ResultsThe imaging quality of the NIM PET/CT phantom and the NEMA IEC Body phantom was relatively consistent. The NIM PET/CT phantom could detect 7 mm spheres without influencing the imaging quality. It was found that PSF reconstruction exhibited to reduce the speed of convergence, the contrast and background variability of spheres (13–28 mm) were significantly improved after two iterations. In addition to improve the image contrast and background variability, TOF could markedly improve the overall image quality and instrument detection limit. TOF-PSF could noticeably reduce noise level, enhance imaging details, and improve quality of imaging.ConclusionsThe results showed that in comparison with the NEMA IEC Body phantom, the NIM PET/CT phantom outperformed in evaluating the PET image quality of micro-lesions and the performance parameters of CT.
Highlights
The commonly used National Electrical Manufacturers Association (NEMA) International Electrotechnical Commission (IEC) Body phantom has a number of defects, hindering its application for detecting micro-lesions and measuring the performance parameters of computed tomography (CT)
The present study aimed to propose a Positron emission tomography (PET)/CT phantom designed by National Institute of Metrology(NIM), China, which is capable of simultaneously testing the performance of PET and CT systems, and to evaluate quality of imaging
The NIM PET/CT phantom and NEMA IEC Body phantom were used to assess the quality of PET images with the same PET/CT system and the same scanning protocol
Summary
The commonly used NEMA IEC Body phantom has a number of defects, hindering its application for detecting micro-lesions and measuring the performance parameters of computed tomography (CT). Physical phantoms are used to calibrate imaging systems, evaluate their performance, and ensure the correct operation of imaging systems before scanning human subjects They constitute an inexpensive way of testing new imaging applications and serve as a well-defined reference for quantitative measurements. According to the NEMA NU 2–2012 standard, image quality parameters of PET scanners could be obtained by measuring a specific IEC-61675–1 emission phantom. This image quality phantom mimics the shape of an upper human body and is built of acrylic glass. Numbers in bold represent the CT image uniformity measurement results Purified water
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