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Improving binding potential analysis in PET studies using cluster analysis
1.A. Antonini, K. L. Leenders, R. Spiegel, D. Meier, P. Vontobel, M. Weigell-Weber, R. Sanchez-Pernaute, J. G. de Yebenez, P. Boesiger, A. Weindl, and R. P. Maguire, “Striatal glucose metabolism and dopamine D2 receptor binding in asymptomatic gene carriers and patients with Huntington’s disease,” Brain 119, 2085–2095 (1996).
2.N. Turjanski, R. Weeks, R. Dolan, A. E. Harding, and D. J. Brooks, “Striatal D1 and D2 receptor binding in patients with Huntington’s disease and other choreas. A PET study,” Brain 118, 689–696 (1995).
3.L. Farde, E. Ehrin, L. Eriksson, T. Greitz, H. Hall, C. G. Hedstrom, J. E. Litton, and G. Sedvall, “Substituted benzamides as ligands for visualization of dopamine receptor binding in the human brain by positron emission tomography,” Proc. Natl. Acad. Sci. U.S.A. 82, 3863–3867 (1985).
4.A. A. Lammertsma and S. P. Hume, “Simplified reference tissue model for PET receptor studies,” Neuroimage 4, 153–158 (1996).
5.P. Sokoloff, B. Giros, M. P. Martres, M. L. Bouthenet, and J. C. Schwartz, “Molecular cloning and characterization of a novel dopamine receptor (D3) as a target for neuroleptics,” Nature (London) 347, 146–151 (1990).
6.J. M. Vessotskie, M. P. Kung, S. Chumpradit, and H. F. Kung, “Quantitative autoradiographic studies of dopamine D3 receptors in rat cerebellum using ” Brain Res. 778, 89–98 (1997).
7.D. Boulay, R. Depoortere, G. Perrault, and D. J. Sanger, “Decreased locomotor activity after microinjection of dopamine D2/D3 receptor agonists and antagonists into lobule 9/10 of the cerebellum: a D3 receptor mediated effect?” Prog. Neuropsychopharmacol. Biol. Psychiatry 24, 39–49 (2000).
8.L. Herroelen, J. P. De Backer, N. Wilczak, A. Flamez, G. Vauquelin, and J. De Keyser, “Autoradiographic distribution of D3-type dopamine receptors in human brain using -hydroxy-N,N-di-n-propyl-2aminotetralin,” Brain Res. 648, 222–228 (1994).
9.P. Barili, E. Bronzetti, A. Ricci, D. Zaccheo, and F. Amenta, “Microanatomical localization of dopamine receptor protein immunoreactivity in the rat cerebellar cortex,” Brain Res. 854, 130–138 (2000).
10.W. D. Heiss, G. Pawlik, K. Herholz, R. Wagner, H. Goldner, and K. Wienhard, “Regional kinetic constants and cerebral metabolic rate for glucose in normal human volunteers determined by dynamic positron emission tomography of -2-fluoro-2-deoxy-D-glucose,” J. Cereb. Blood Flow Metab. 4, 212–223 (1984).
11.J. Ashburner, J. Haslam, C. Taylor, V. J. Cunningham, and T. Jones “A cluster analysis approach for the characterization of dynamic PET data,” in Quantification of Brain Function Using PET, edited by R. Myers, V. J. Cunningham, D. Bailey, and T. Jones (Academic, London, 1996), pp. 301–306.
12.R. N. Gunn, A. A. Lammertsma, and V. J. Cunningham, “Parametric imaging of ligand-receptor interactions using a reference tissue model and cluster analysis,” in Quantitative Functional Brain Imaging with Positron Emission Tomography, edited by R. E. Carson, M. E. Daube-Witherspoon, and P. Herscovitch (Academic, San Diego, 1998), pp. 401–406.
13.A. Baune, F. T. Sommer, M. Erb, D. Wildgruber, B. Kardatzki, G. Palm, and W. Grodd, “Dynamical cluster analysis of cortical fMRI activation,” Neuroimage 9, 477–489 (1999).
14.L.-E. Adam, J. Zaers, H. Ostertag, H. Trojan, M. E. Bellemann, and G. Brix, “Performance evaluation of the whole-body PET scanner ECAT EXACT following the IEC standard,” IEEE Trans. Nucl. Sci. 44, 1172–1179 (1997).
15.P. E. Kinahan and J. G. Rogers, “Analytic 3D image reconstruction using all detected events,” IEEE Trans. Nucl. Sci. 36, 964–968 (1989).
16.R. N. Gunn, A. A. Lammertsma, S. P. Hume, and V. J. Cunningham, “Parametric imaging of ligand-receptor binding in PET using a simplified reference region model,” Neuroimage 6, 279–287 (1997).
17.M. J. Koepp, R. N. Gunn, A. D. Lawrence, V. J. Cunningham, A. Dagher, T. Jones, D. J. Brooks, C. J. Bench, and P. M. Grasby, “Evidence for striatal dopamine release during a video game,” Nature (London) 393, 266–268 (1998).
18.T. C. Andrews, R. A. Weeks, N. Turjanski, R. N. Gunn, L. H. A. Watkins, B. Sahakian, J. R. Hodges, A. E. Rosser, N. W. Wood, and D. J. Brooks, “Huntington’s disease progression. PET and clinical observations,” Brain 122, 2353–2363 (1999).
19.R. O. Duda, P. E. Hart, and D. G. Stork, Pattern Classification, 4th ed. (Wiley, New York, 2001), Chap. 10.
20.J. Waldemark, “An automated procedure for cluster analysis of multivariate satellite data,” Int. J. Neural Syst. 8, 3–15 (1997).
21.A. Wichert, B. Abler, J. Grothe, H. Walter, and F. T. Sommer, “Exploratory analysis of event-related fMRI demonstrated in a working memory study,” in Exploratory Analysis and Data Modeling in Functional Neuroimaging, edited by F. T. Sommer and A. Wichert (MIT, Boston, MA, 1996), pp. 77–108.
22.G. Tarantola, F. Zito, and P. Gerundini, “PET instrumentation and reconstruction algorithms in whole-body applications,” J. Nucl. Med. 44, 756–769 (2003).
23.M. Landmann, S. N. Reske, and G. Glatting, “Simultaneous iterative reconstruction of emission and attenuation images in positron emission tomography from emission data only,” Med. Phys. 29, 1962–1967 (2002).
24.M. Landmann and G. Glatting, “Quantitative image reconstruction in PET from emission data only using cluster analysis,” Z. Med. Phys. 13, 269–274 (2003).
25.G. Glatting, C. Werner, S. N. Reske, and M. E. Bellemann, “ROC analysis for assessment of lesion detection performance in 3D PET: Influence of reconstruction algorithms,” Med. Phys. 30, 2315–2319 (2003).
26.C. Werner, G. Glatting, and M. E. Bellemann, “Assessment of image reconstruction parameters in PET using physical and statistical figures of merit,” Biomed. Tech. 47(Suppl. 1), 463–466 (2002).
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