Docteur de l'université Automatic Segmentation and Shape Analysis ...

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184 BIBLIOGRAPHY Watson, C., Andermann, F., Gloor, P., Jones-Gotman, M., Peters, T., Evans, A., Olivier, A., Melanson, D., and Leroux, G. (1992). Anatomic basis of amyg- daloid and hippocampal volume measurement by magnetic resonance imaging. Neurology, 42(9):1743–1750. 2.1.1 Weistrand, O. (2005). Global Shape Description of Digital Objects. PhD thesis, Uppsala University, Uppsala. 4.1.1.2 West, M. J., Coleman, P. D., Flood, D. G., and Troncoso, J. C. (1994). Differences in the pattern of hippocampal neuronal loss in normal ageing and Alzheimer’s disease. The Lancet, 344(8925):769–772. 2.3.2 Whitwell, J. L., Josephs, K. A., Murray, M. E., Kantarci, K., Przybelski, S. A., Weigand, S. D., Vemuri, P., Senjem, M. L., Parisi, J. E., Knopman, D. S., Boeve, B. F., Petersen, R. C., Dickson, D. W., and Jack, C. R. (2008). MRI correlates of neurofibrillary tangle pathology at autopsy. Neurology, 71(10):743 –749. 1.1.3.2 Wimo, A. and Prince, M. (2010). World Alzheimer report 2010: The global economic impact of dementia. 1.1.1 Wolz, R., Aljabar, P., Hajnal, J. V., Hammers, A., and Rueckert, D. (2010). LEAP: learning embeddings for atlas propagation. NeuroImage, 49(2):1316–1325. 2.1.2.3 Wolz, R., Aljabar, P., Rueckert, D., Heckemann, R. A., and Hammers, A. (2009). Segmentation of subcortical structures and the hippocampus in brain MRI using graph-cuts and subject-specific a-priori information. In IEEE International Symposium on Biomedical Imaging, 2009 – ISBI ’09, pages 470–473. IEEE. 2.1.2.3 Woods, R. P., Grafton, S. T., Holmes, C. J., Cherry, S. R., and Mazziotta, J. C. (1998). Automated image registration: I. general methods and intra- subject, intramodality validation. Journal of Computer Assisted Tomography, 22(1):139–152. 2.1.2.3
BIBLIOGRAPHY 185 Woolrich, M. W., Jbabdi, S., Patenaude, B., Chappell, M., Makni, S., Behrens, T., Beckmann, C., Jenkinson, M., and Smith, S. M. (2009). Bayesian analysis of neuroimaging data in FSL. NeuroImage, 45(1, Supplement 1):S173–S186. 2.1.2.2 Xie, J., Alcantara, D., Amenta, N., Fletcher, E., Martinez, O., Persianinova, M., DeCarli, C., and Carmichael, O. (2009). Spatially localized hippocampal shape analysis in late-life cognitive decline. Hippocampus, 19(6):526–532. 2.3.2, 5.1 Yang, J. and Duncan, J. S. (2004). 3D image segmentation of deformable objects with joint shape-intensity prior models using level sets. Medical Image Analysis, 8(3):285–294. 2.1.2.2 Yang, J., Staib, L. H., and Duncan, J. S. (2004). Neighbor-constrained segmentation with level set based 3-D deformable models. IEEE Transactions on Medical Imaging, 23(8):940–948. 2.1.2.2 Yassa, M. A. and Stark, C. E. (2009). A quantitative evaluation of cross- participant registration techniques for MRI studies of the medial temporal lobe. NeuroImage, 44(2):319–327. 2.1.2.3, 3.1.1.2 Yavuz, B. B., Ariogul, S., Cankurtaran, M., Oguz, K. K., Halil, M., Dagli, N., and Cankurtaran, E. S. (2007). Hippocampal atrophy correlates with the severity of cognitive decline. International Psychogeriatrics, 19(04):767–777. 2.3.1 Yuan, Y., Gu, Z., and Wei, W. (2009). Fluorodeoxyglucose-positron-emission tomography, single-photon emission tomography, and structural MR imaging for prediction of rapid conversion to Alzheimer disease in patients with mild cognitive impairment: A meta-analysis. AJNR Am J Neuroradiol, 30(2):404–410. 1.1.3.2 Yushkevich, P., Joshi, S., Pizer, S. M., and ad Lei E. Wang, J. G. C. (2003a). Fea- ture selection for shape-based classification of biological objects. In Information Processing in Medical Imaging, pages 114–125. Springer-Verlag. 2.3.2
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UNIVERSITE DE BOURGOGNE U.F.R. SCIE
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Résumé L’objectif de cette thè
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Abstract The aim of this thesis is
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TABLE DES MATIÈRES Acknowledgement
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TABLE DES MATIÈRES xi 4.1.4.3 Spec
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LISTE DES FIGURES 1.1 Cortical atro
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LISTE DES FIGURES xvii 5.6 The accu
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2 Chapter 1 Introduction The resear
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Page 164 and 165: 146 BIBLIOGRAPHY Alzheimer, A. (191
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