Jihan Zukhi scite author profile

Abstract. The aim of this study was to evaluate the image quality and radiation dose using commercial gold nanoparticles and clinical contrast agents in dual-energy Computed Tomography (CT). Five polymethyl methacrylate (PMMA) tubes were used in this study, where four tubes were filled with different contrast agents (barium, iodine, gadolinium, and gold nanoparticles). The fifth tube was filled with water. Two optically stimulated luminescence dosimeters (OSLD) were placed in each tube to measure the radiation dose. The tubes were placed in a fabricated adult abdominal phantom of 32 cm in diameter using PMMA. The phantom was scanned using a DECT at low energy (80 kV) and high energy (140 kV) with different pitches (0.6 mm and 1.0 mm) and different slice thickness (3.0 mm and 5.0 mm). The tube current was applied automatically using automatic exposure control (AEC) and tube current modulation recommended by the manufacturer (CARE Dose 4D, Siemens, Germany). The contrast-to-noise ratio (CNR) of each contrast agent was analyzed using Weasis software. Gold nanoparticles has highest atomic number (Z = 79) than barium (Z = 56), iodine (Z = 53) and gadolinium (Z = 64). The CNR value of each contrast agent increases when the slice thickness increases. The radiation dose obtained from this study decreases when the pitch increases. The optimal imaging parameters for gold nanoparticles and other clinical contrast agents is obtained at pitch value of 1.0 mm and slice thickness of 5.0 mm. Low noise and low radiation dose obtained at these imaging parameters. The optimal imaging parameters obtained in this study can be applied in multiple contrast agents imaging. IntroductionComputed tomography (CT) is one of diagnostic tool that is applied in clinical and preclinical applications. This is because CT has high diagnostic efficiency which provides anatomical information of tumor and good accessibility. Conventional CT uses a wide energy spectrum and digital integrating sensor 1,2 . However, conventional CT cannot distinguish the tissues because the attenuation of x-ray is not at a specific energy but it is over the broad energy for all tissues within the voxel. The contrast resolution for soft tissues do not adequate for conventional CT 1,3 . Thus, innovation in CT imaging technology has overcome this limitation with the use of an advanced imaging technique known as a dual-energy CT (DECT) imaging.

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Image Quality Evaluation in Contrast Agents Computed Tomography Imaging

Zukhi

Yusob

Tajuddin

et al. 2018

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Evaluation of Metal Artifacts from Stainless Steel and Titanium Alloy Orthopedic Screw in Computed Tomography Imaging

Yusob

Zukhi

Tajuddin

et al. 2018

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Jihan Zukhi

The Effects of Insulin Infusion Protocol on the Glycemic Level of the Intensive Care Patients

Determination of effective atomic numbers from mass attenuation coefficients of tissue-equivalent materials in the energy range 60 keV-1.33 MeV

Evaluation of image quality and radiation dose using gold nanoparticles and other clinical contrast agents in dual-energy Computed Tomography (CT): CT abdomen phantom

Image Quality Evaluation in Contrast Agents Computed Tomography Imaging

Evaluation of Metal Artifacts from Stainless Steel and Titanium Alloy Orthopedic Screw in Computed Tomography Imaging

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