TY - JOUR AU - Nikolov, Nikolay AU - Makeyev, Sergiy AU - Korostynska, Olga AU - Novikova, Tetyana AU - Kriukova, Yelizaveta PY - 2022/02/16 Y2 - 2024/03/29 TI - Gaussian Filter for Brain SPECT Imaging JF - Innovative Biosystems and Bioengineering JA - Innov Biosyst Bioeng VL - 6 IS - 1 SE - Articles DO - 10.20535/ibb.2022.6.1.128475 UR - http://ibb.kpi.ua/article/view/128475 SP - 4-15 AB - <p><strong>Background</strong><strong>. </strong>The presence of a noise component on 3D images of single-photon emission computed tomo­graphy (SPECT) of a brain significantly distorts the probability distribution function (PD) of the radioactive count rate in the images. The presence of noise and further filtering of the data, based on a subjective assessment of image quality, have a significant impact on the calculation of volumetric cerebral blood flow and the values of the uptake asymmetry of the radiopharmaceutical in a brain.</p><p><strong>Objective.</strong> We are aimed to develop a method for optimal SPECT filtering of brain images with lipophilic radiopharmaceuticals, based on a Gaussian filter (GF), for subsequent image segmentation by the threshold method. </p><p><strong>Methods.</strong> SPECT images of the water phantom and the brain of patients with <sup>99m</sup>Tc-HMPAO were used. We have developed a technique for artificial addition of speckle noise to conditionally flawless data in order to determine the optimal parameters for smoothing SPECT, based on a GF. The quantitative criterion for optimal smoothing was the standard deviation between the PD of radioactive count rate of the smoothed image and conditionally ideal one.</p><p><strong>Results. </strong>It was shown that the maximum radioactive count rate of the SPECT image has an extremum by changing the standard deviation of the GF in the range of 0.3–0.4 pixels. The greater the noise component in the SPECT image, the more quasi-linearly the corresponding rate changes. This dependence allows determining the optimal smoothing parameters. The application of the developed smoothing technique allows restoring the probability distribution function of the radioactive count rate (distribution histogram) with an accuracy up to 5–10%. This provides the possibility to standardize SPECT images of brain.</p><p>Conclusions. The research results of work solve a specific applied problem: restoration of the histogram of a radiopharmaceuticals distribution in a brain for correct quantitative assessment of regional cerebral blood flow. In contrast to the well-known publications on the filtration of SPECT data, the work takes into account that the initial tomographic data are 3D, rather than 2D slices, and contain not only uniform random Gaussian noise, but also a pronounced speckle component.</p> ER -