evaluation of iterative reconstruction method and attenuation correction on brain dopamine transporter spect using anthropomorphic striatal phantom
Authors
abstract
objective(s): the aim of this study was to determine the optimal reconstruction parameters for iterative reconstruction in different devices and collimators for dopamine transporter (dat) single-photon emission computed tomography (spect). the results were compared between filtered back projection (fbp) and different attenuation correction (ac) methods.methods: an anthropomorphic striatal phantom was filled with 123i solutions at different striatum-to-background radioactivity ratios. data were acquired using two spect/ct devices, equipped with a low-to-medium-energy general-purpose collimator (cameras a-1 and b-1) and a low-energy high-resolution (lehr) collimator (cameras a-2 and b-2).the spect images were once reconstructed by fbp using chang’s ac and once by ordered subset expectation maximization (osem) using both ctac and chang’s ac; moreover, scatter correction was performed. osem on cameras a-1 and a-2 included resolution recovery (rr). the images were analyzed, using the specific binding ratio (sbr). regions of interest for the background were placed on both frontal and occipital regions.results: the optimal number of iterations and subsets was 10i10s on camera a-1, 10i5s on camera a-2, and 7i6s on cameras b-1 and b-2. the optimal full width at half maximum of the gaussian filter was 2.5 times the pixel size. in the comparison between fbp and osem, the quality was superior on osem-reconstructed images, although edge artifacts were observed in cameras a-1 and a-2. the sbr recovery of osem was higher than that of fbp on cameras a-1 and a-2, while no significant difference was detected on cameras b-1 and b-2. good linearity of sbr was observed in all cameras. inthe comparison between chang’s ac and ctac, a significant correlation was observed on all cameras. the difference in the background region influenced sbr differently in chang’s ac and ctac on cameras a-1 and b-1.conclusion: iterative reconstruction improved image quality on all cameras, although edge artifacts were observed in images captured by cameras with rr. the sbr of osem with rr was higher than that of fbp, while the sbr of osem without rr was equal to that of fbp. also, the sbr of chang’s ac varied with different background regions in cameras a-1 and b-1.
similar resources
Evaluation of iterative reconstruction method and attenuation correction on brain dopamine transporter SPECT using anthropomorphic striatal phantom
Objective(s): The aim of this study was to determine the optimal reconstruction parameters for iterative reconstruction in different devices and collimators for dopamine transporter (DaT) single-photon emission computed tomography (SPECT). The results were compared between filtered back projection (FBP) and different attenuation correction (AC) methods.Methods: An anthropomorphic striatal phant...
full textEvaluation of Iterative Reconstruction Method and Attenuation Correction in Brain Dopamine Transporter SPECT Using an Anthropomorphic Striatal Phantom
OBJECTIVES The aim of this study was to determine the optimal reconstruction parameters for iterative reconstruction in different devices and collimators for dopamine transporter (DaT) single-photon emission computed tomography (SPECT). The results were compared between filtered back projection (FBP) and different attenuation correction (AC) methods. METHODS An anthropomorphic striatal phanto...
full textInfluences of reconstruction and attenuation correction in brain SPECT images obtained by the hybrid SPECT/CT device: evaluation with a 3‐dimensional brain phantom
Objective: The aim of this study was to evaluate the influences of reconstruction and attenuation correction on the differences in the radioactivity distributions in 123I brain SPECT obtained by the hybrid SPECT/CT device. Methods: We used the 3-dimensional (3D) brain phantom, which imitates the precise structure of gray mater, white matter and bone regions. It was filled with 123I solution (20...
full textQualitative evaluation of Chang method of attenuation correction on heart SPECT by using custom made heart phantom
SPECT detects γ-rays from administered radiopharmaceutical within the patient body. γ-rays pass through different tissues before reaching detectors and are attenuated. Attenuation can cause artifacts; therefore different methods are used to minimize attenuation effects. In our study efficacy of Chang method was evaluated for attenuation purpose, using a custom made heart phantom. Due to d...
full textAn anthropomorphic phantom study of brain dopamine transporter SPECT images obtained using different SPECT/CT devices and collimators.
UNLABELLED The aim of this study was to evaluate differences in dopamine transporter SPECT images among different SPECT/CT devices and to determine the most appropriate region of interest (ROI) for semiquantitative evaluation. METHODS An anthropomorphic striatal phantom was filled with (123)I solutions of different striatum-to-background radioactivity ratios. Data were acquired using 2 SPECT/...
full textEvaluation of 2 scatter correction methods using a striatal phantom for quantitative brain SPECT.
OBJECTIVE Scatter correction is an important factor in quantitative SPECT. In this study, we evaluated 2 methods of scatter correction for brain SPECT. The first is based on thresholding the energy spectrum (ES), and the second is based on a modification of the transmission-dependent convolution subtraction (TDCS) method. METHODS SPECT imaging of a skull striatal phantom was performed using a...
full textMy Resources
Save resource for easier access later
Journal title:
asia oceania journal of nuclear medicine and biologyجلد ۴، شماره ۲، صفحات ۷۲-۸۰
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023