Medical Imaging and Radiotherapy Journal (MIRTJ) 39 (Suppl. 1) 23 Medical Imaging and Radiotherapy Journal (MIRTJ) 39 (Suppl. 1) OPTIMIZACIJA SPECT/CT IN PET/CT PROTOKOLOV OPTIMIZATION OF SPECT/CT AND PET/CT PROTOCOLS Sebastijan Rep , Slodnjak Ivan Univerzitetni klinični center Ljubljana, Klinika za nuklearno medicino, Zaloška cesta 7, 1000 Ljubljana, Slovenija / University medical centre Ljubljana, Clinic of nuclear medicine, Zaloška cesta 7, 1000 Ljubljana, Slovenia Korespondenca / Corresponding author: sebastijan.rep@guest.arnes.si Prejeto/Recived: 14. 11. 2019 Sprejeto/Accepted: 3. 3. 2022 IZVLEČEK Uvod: Tomografski metodi slikanja v nuklearni medicini sta enofotonska emisijska računalniška tomografi ja (SPECT) in pozitronska emisijska tomografi ja (PET). Obe metodi prikažeta razporeditev radiofarmaka (RF) v telesu v treh ravninah. Pri prehodu fotonov skozi homogeno telo se prikaže neenakomerna razporeditev RF zaradi atenuacije. Računalniška tomografi ja (CT) v kombinaciji s funkcionalnimi metodami slikanja (SPECT/CT in PET/CT) korigira problem atenuacije fotonov. Slika, dobljena pri SPECT/CT in PET/CT, se lahko optimizira z uporabo CT za korekcijo atenuacije in fuzijo ter z rekonstrukcijskimi algoritmi, ki vključujejo korekcijo ločljivosti. Namen: Namen opravljene raziskave je kvalitativno in kvantitativno oceniti in analizirati PET/CT in SPECT/CT slike z namenom optimizacije protokolov. Metode: Uporabili smo NEMA body fantom in ga napolnili z 99mTc in 18F FDG v različnih razmerjih. Analizirali smo kontrastnost za SPECT/CT pri različnih rekonstrukcijskih algoritmih. Na PET/CT smo analizirali CNR (razmerje kontrast/ šum) in CRC (koefi cient vrnitve kontrasta) pri različnih matrikah. Primerjali smo tudi CNR med PET/CT in SPECT/CT. Za analizo smo uporabili programsko orodje SPSS 21. Rezultati: Analiza kontrastnosti je pokazala statistično pomembno razliko med različnimi rekonstrukcijskimi algoritmi pri SPECT/CT (p < 0,001). Pri uporabi manjših matričnih elementov se CNR in CRC pri PET/CT povišata pri lezijah s premerom ≤ 1,21 cm do 11 %. Primerjava CNR za PET/ CT in SPECT/CT je pokazala signifi kantno razliko med obema metodama (p = 0,002). Pri obeh metodah se vrednost SNR viša glede na višino razmerja in kaže dobro korelacijo (r = 0,85 in p < 0,001). Zaključek: Rezultati analize so potrdili, da se z optimizacijo slikovnih in obdelovalnih parametrov lahko vpliva na SPECT/ CT in PET/CT slike. Ključne besede: kontrastnost, SNR, CNR, SPECT/CT, PET/CT ABSTRACT Introduction: Tomographic imaging methods in nuclear medicine are single-photon emission computed tomography (SPECT) and positron emission tomography (PET). Both methods show the distribution of radiopharmaceuticals (RF) in the body in three planes. In the transition of photons through a homogeneous body, uneven distribution of RF due to attenuation appears. Computed tomography (CT) combined with functional imaging methods (SPECT/CT and PET/CT) corrects the problem of photon attenuation. The image obtained with SPECT/CT and PET/CT can be optimized by using CT for attenuation and fusion correction and reconstruction algorithms involving resolution correction. Purpose: The purpose of the study is to qualitatively and quantitatively evaluate and analyze PET/CT and SPECT/CT images in order to optimize protocols. Methods: We used a NEMA body phantom and fi lled it with 99mTc and 18F-FDG in diff erent ratio. Contrast for SPECT/CT was analyzed for diff erent reconstruction algorithms. CNR (contrast/ noise ratio) and CRC (contrast return coeffi cient) for diff erent matrices were analyzed on PET/CT. We also compared CNR between PET/CT and SPECT/CT. The SPSS 21 software tool was used for analysis. Results: Analysis of contrastness showed a statistically signifi cant diff erence between the diff erent reconstructive algorithms in SPECT/CT (p <0.001). When smaller matrix elements are used, CNR and CRC for PET/CT are increased for lesions ≤ 1.21 cm to 11% in diameter. The CNR comparison for PET/CT and SPECT/CT showed a signifi cant diff erence between the two methods (p = 0.002). In both methods, the SNR value increases with respect to ratio height and shows a good correlation (r = 0.85 and p <0.001). Conclusion: The results of the analysis confi rmed that SPECT/CT and PET/CT images can be aff ected by the optimization of the imaging and processing parameters. Keywords: contrast, SNR, CNR, SPECT/CT, PET/CT 24 Medical Imaging and Radiotherapy Journal (MIRTJ) 39 (Suppl. 1) Medical Imaging and Radiotherapy Journal (MIRTJ) 39 (Suppl. 1) LITERATURA / REFERENCES Frelih N, Ležaič L, Žibert: J, Rep S. The eff ect of attenuation correction on image quality in single photon emission computed tomography: The eff ect of attenuation correction on image quality. Med Sci Discov. 2021 Feb;8(2):73-8. c Kupitz D, Wissel H, Wuestemann J, Bluemel S, Pech M, Amthauer H, Kreissl MC, Grosser OS. Optimization of SPECT/CT imaging protocols for quantitative and qualitative 99mTc SPECT. EJNMMI Phys. 2021 Jul 30;8(1):57. Adler S, Seidel J, Choyke P, Knopp MV, Binzel K, Zhang J, et al. Minimum lesion detectability as a measure of PET system performance. EJNMMI Phys. 2017 Dec;4(1):13.