Your search keyword '"Zubal, George"' showing total 4 results

1. Automated kinetic analysis of FDG uptake in living rat brain slices from dynamic positron autoradiography.

Author

Zubal G, Fujibayashi Y, Maruoka N, Omata N, and Yonekura Y

Subjects

Animals, Autoradiography methods, Brain diagnostic imaging, Hypoxia metabolism, Rats, Rats, Sprague-Dawley, Tomography, Emission-Computed, Brain metabolism, Fluorodeoxyglucose F18 pharmacokinetics, Radiopharmaceuticals pharmacokinetics

Abstract

Changes in regional cerebral glucose metabolism were investigated for varying levels of tissue oxygenation using a dynamic positron autoradiography technique. While incubating fresh rat brain slices with [18F]FDG in an oxygenated solution, serial images of the tissue slices were obtained over a time period of up to 300 min and archived onto over 20 phosphorous imaging plate exposures. In order to properly create time activity curves of the uptake levels, images of the individual tissue samples were automatically located, digitally extracted, and registered with the later images of the same tissue samples. After applying image processing techniques for aligning tissue sample images, time activity curves were extracted for individual substructures in the rat brain and quantitative results were reported using Patlak plots. Since the levels of oxygenation can be controlled for these experiments, [18F]FDG uptakes can be reported representing states of hypoxia, pseudoischemia, and reoxygenation. The image processing techniques developed for this application have enabled more experiments and tissue samples to be acquired and analyzed than would otherwise be possible using manual ROI techniques. The objective spatial registration of tissue samples and automated extraction of data has increased the analysis accuracy and decreased the operator error associated with the interactive handling of the image data. This supports improved kinetic modeling of FDG uptake in animal studies, and can be used for more accurate dosimetry calculations in humans.

Published

2003

2. EANM practice guideline/SNMMI procedure standard for dopaminergic imaging in Parkinsonian syndromes 1.0

Author

Morbelli, Silvia, Esposito, Giuseppe, Arbizu, Javier, Barthel, Henryk, Boellaard, Ronald, Bohnen, Nico I., Brooks, David J, Darcourt, Jacques, Dickson, John C., Douglas, David, Drzezga, Alexander, Dubroff, Jacob, Ekmekcioglu, Ozgul, Garibotto, Valentina, Herscovitch, Peter, Kuo, Phillip, Lammertsma, Adriaan, Pappata, Sabina, Peñuelas, Iván, Seibyl, John, Semah, Franck, Tossici-Bolt, Livia, Van de Giessen, Elsmarieke, Van Laere, Koen, Varrone, Andrea, Wanner, Michele, Zubal, George, and Law, Ian

Published

2020

3. Optimization of Parameters for Quantitative Analysis of 123I-Ioflupane SPECT Images for Monitoring Progression of Parkinson Disease.

Author

Kuo, Phillip H., Eshghi, Naghmehossadat, Tinaz, Sule, Blumenfeld, Hal, Louis, Elan D., and Zubal, George

Published

2019

4. Evaluation of an Objective Striatal Analysis Program for Determining Laterality in Uptake of 123I-Ioflupane SPECT Images: Comparison to Clinical Symptoms and to Visual Reads.

Author

Kuo, Phillip H., Hong H. Lei, Avery, Ryan, Krupinski, Elizabeth A., Bauer, Adam, Sherman, Scott, McMillan, Natalie, Seibyl, John, and Zubal, George I.

Subjects

BRAIN, RADIOGRAPHY, CHI-squared test, COMPUTER software, DIAGNOSTIC imaging, LONGITUDINAL method, COMPUTERS in medicine, RESEARCH funding, STATISTICS, SINGLE-photon emission computed tomography, PARKINSONIAN disorders, DESCRIPTIVE statistics, SYMPTOMS

Abstract

An automated objective striatal analysis (OSA) software program was applied to dopamine transporter 123I-ioflupane images acquired on subjects with varying severities of parkin-sonism. The striatal binding ratios (SBR) of the left and right putamina (relative to the occipital lobe) were computed, and the laterality of that measure was compared with clinical symptoms and visual reads. The objective over-read of OSA was evaluated as an aid in confirming the laterality of disease onset. Methods: One hundred one 123I-ioflupane scans were acquired on clinically referred subjects. SPECT images were analyzed using the OSA software, which locates the slices containing the striatal and background (occipital) structures, positions regions over the left and right caudate nuclei and putamina, and calculates the background-subtracted SBR. Seven images were uninterpretable because of patient motion or lack of visualization of the striatum. The remaining 94 scans were analyzed with OSA. Differences between left and right putaminal SBR ranged from 0% to 36.6%, with a mean of 11.4%. When the difference between the SBR of the left and right putamina was greater than 6%, the lower side was taken as the side of onset. Left-to-right differences less than 6% were considered to be nonlaterallzing (symmetric). The 94 scans were reviewed independently by 3 masked expert readers. By majority consensus, abnormal findings were seen on 67 of the 94 scans, of which 46 had available clinical findings. Results: Clinically, 34 subjects presented with lateralized tremors and 12 with symmetric or no tremors. Of the 34 cases of clinically lateralized tremors, 26 (76%) were concordant with the OSA findings, 5 were disparate with OSA (15%), and in 3 the OSA results were symmetric (9%). For the same 34 patients, the visual reads were concurrent with clinical tremor findings in 24 cases (71 %), 1 was disparate (3%), and 9 visual reads were symmetric (26%). Of the 9 scans deemed symmetric by readers, 4 were correctly lateralized by OSA, and of the 3 symmetric OSA results, 2 were correctly lateralized visually. Conclusion: The OSA program may be a helpful aid in the interpretation of 123I-ioflupane SPECT images for determining laterality representing the asymmetric loss of dopamine transporters in the striata. OSA offers an objective, reproducible over-read evaluation for the laterality of onset in Parkinson disease. [ABSTRACT FROM AUTHOR]

Published

2014