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

More documents

Recommendations

Info

154 BIBLIOGRAPHY Cootes, T. F., Taylor, C. J., Cooper, D. H., and Graham, J. (1995). Active shape Models-Their training and application. Computer Vision and Image Under- standing, 61(1):38–59. 2.1.2.2 Coupé, P., Manjón, J. V., Fonov, V., Pruessner, J., Robles, M., and Collins, D. L. (2010). Nonlocal Patch-Based label fusion for hippocampus segmentation. In Jiang, T., Navab, N., Pluim, J. P. W., and Viergever, M. A., editors, Medical Image Computing and Computer-Assisted Intervention – MICCAI 2010, volume 6363 of LNCS, pages 129–136, Berlin, Heidelberg. Springer Berlin Heidelberg. 2.1.2.3 Cox, R. W. (1996). AFNI: software for analysis and visualization of func- tional magnetic resonance neuroimages. Computers and Biomedical Research, 29(3):162–173. 2.1.2.3, 3.1.1.2 Crum, W., Griffin, L., Hill, D., and Hawkes, D. (2003). Zen and the art of medical image registration: correspondence, homology, and quality. NeuroImage, 20(3):1425–1437. 2.1.2.3 Crum, W. R., Scahill, R. I., and Fox, N. C. (2001). Automated hippocampal segmentation by regional fluid registration of serial MRI: validation and application in Alzheimer’s disease. NeuroImage, 13(5):847–855. 2.1.2.3 Csernansky, J. G., Wang, L., Joshi, S., Miller, J. P., Gado, M., Kido, D., McKeel, D., Morris, J. C., and Miller, M. I. (2000). Early DAT is distinguished from aging by high-dimensional mapping of the hippocampus. Neurology, 55(11):1636–1643. 2.3.2 Csernansky, J. G., Wang, L., Swank, J., Miller, J. P., Gado, M., McKeel, D., Miller, M. I., and Morris, J. C. (2005). Preclinical detection of Alzheimer’s disease: hippocampal shape and volume predict dementia onset in the elderly. NeuroImage, 25(3):783–792. 2.3.2 Cuingnet, R., Gerardin, E., Tessieras, J., Auzias, G., Lehéricy, S., Habert, M., Chupin, M., Benali, H., and Colliot, O. (2010). Automatic classification of
BIBLIOGRAPHY 155 patients with Alzheimer’s disease from structural MRI: a comparison of ten methods using the ADNI database. NeuroImage, In Press, Corrected Proof. 2.3.2, 5.3, 5.5.3 Dahlberg, B. E. J., Kenig, C. E., and Verchota, G. C. (1988). Boundary value problems for the systems of elastostatics in Lipschitz domains. Duke Mathemat- ical Journal, 57(3):795–818. 4.1.3.3 Dale, A. M., Fischl, B., and Sereno, M. I. (1999). Cortical Surface-Based analysis: I. segmentation and surface reconstruction. NeuroImage, 9(2):179–194. 2.1.2.2 Davatzikos, C., Tao, X., and Shen, D. (2003). Hierarchical active shape models, using the wavelet transform. IEEE Transactions on Medical Imaging, 22(3):414–423. 2.2.1 Davies, R., Twining, C., Cootes, T., Waterton, J., and Taylor, C. (2002). A minimum description length approach to statistical shape modeling. Medical Imaging, IEEE Transactions on, 21(5):525–537. 2.2.3, 4.1.3.2 Davies, R., Twining, C., and Taylor, C. (2008a). Statistical Models of Shape: Optimisation and Evaluation. Springer, 1st edition. 2.2.3, 4.6 Davies, R. H. (2002). Learning shape: optimal models for analysing natural vari- ability. PhD thesis, Univeristy of Manchester. 2.3.2 Davies, R. H., Twining, C. J., Allen, P. D., Cootes, T. F., and Taylor, C. J. (2003). Shape discrimination in the hippocampus using an MDL model. In Taylor, C. and Noble, J. A., editors, Information Processing in Medical Imaging, volume 2732 of LNCS, pages 38–50, Berlin, Heidelberg. Springer Berlin Heidelberg. 2.2.3, 2.3.2, 4.1.3.2, 4.1.4 Davies, R. H., Twining, C. J., and Taylor, C. (2008b). Groupwise surface correspondence by optimization: Representation and regularization. Medical Image Analysis, 12(6):787–796. 2.2.3, 4.1.3, 4.5, 4.1.3.3, 4.1.3.3, 9, 5.2 Dawant, B. M., Hartmann, S. L., Thirion, J. P., Maes, F., Vandermeulen, D., and Demaerel, P. (1999). Automatic 3-D segmentation of internal structures of the
Page 1:
UNIVERSITE DE BOURGOGNE U.F.R. SCIE
Page 5 and 6:
Résumé L’objectif de cette thè
Page 7 and 8:
Abstract The aim of this thesis is
Page 9 and 10:
TABLE DES MATIÈRES Acknowledgement
Page 11:
TABLE DES MATIÈRES xi 4.1.4.3 Spec
Page 15 and 16:
LISTE DES FIGURES 1.1 Cortical atro
Page 17:
LISTE DES FIGURES xvii 5.6 The accu
Page 20 and 21:
2 Chapter 1 Introduction The resear
Page 22 and 23:
4 Chapter 1 Introduction .β.α .γ
Page 24 and 25:
6 Chapter 1 Introduction 1.1.2 Hipp
Page 26 and 27:
8 Chapter 1 Introduction Figure 1.4
Page 28 and 29:
10 Chapter 1 Introduction Functiona
Page 30 and 31:
12 Chapter 1 Introduction backgroun
Page 32 and 33:
14 Chapter 1 Introduction Figure 1.
Page 35 and 36:
Chapter 2 Literature Review In this
Page 37 and 38:
Chapter 2 Literature Review 19 Figu
Page 39 and 40:
Chapter 2 Literature Review 21 Figu
Page 41 and 42:
Chapter 2 Literature Review 23 does
Page 43 and 44:
Chapter 2 Literature Review 25 inte
Page 45 and 46:
Chapter 2 Literature Review 27 In t
Page 47 and 48:
Chapter 2 Literature Review 29 Wolz
Page 49 and 50:
Chapter 2 Literature Review 31 . Pr
Page 51 and 52:
Chapter 2 Literature Review 33 The
Page 53 and 54:
Chapter 2 Literature Review 35 2.2.
Page 55 and 56:
Chapter 2 Literature Review 37 2.2.
Page 57 and 58:
Chapter 2 Literature Review 39 Apar
Page 59:
Chapter 2 Literature Review 41 spec
Page 62 and 63:
44 Chapter 3 Hippocampal segmentati
Page 64 and 65:
Page 66 and 67:
Page 68 and 69:
Page 70 and 71:
Page 72 and 73:
Page 74 and 75:
Page 76 and 77:
Page 78 and 79:
Page 80 and 81:
Page 82 and 83:
Page 84 and 85:
Page 86 and 87:
Page 88 and 89:
Page 90 and 91:
72 Chapter 4 Statistical shape mode
Page 92 and 93:
Page 94 and 95:
Page 96 and 97:
Page 98 and 99:
Page 100 and 101:
Page 102 and 103:
Page 104 and 105:
Page 106 and 107:
Page 108 and 109:
Page 110 and 111:
Page 112 and 113:
Page 114 and 115:
Page 116 and 117:
Page 118 and 119:
100 Chapter 4 Statistical shape mod
Page 120 and 121:
102 Chapter 4 Statistical shape mod
Page 122 and 123: 104 Chapter 4 Statistical shape mod
Page 124 and 125: 106 Chapter 4 Statistical shape mod
Page 127 and 128: Chapter 5 Quantitative shape analys
Page 129 and 130: Chapter 5 Quantitative shape analys
Page 131: Chapter 5 Quantitative shape analys
Page 134 and 135: 116 Chapter 5 Quantitative shape an
Page 155 and 156: Chapter 6 Conclusions Topics in med
Page 157 and 158: Chapter 6 Conclusions 139 Given the
Page 159: Chapter 6 Conclusions 141 6.2.3 Sha
Page 162 and 163: 144 LIST OF PUBLICATIONS using dive
Page 164 and 165: 146 BIBLIOGRAPHY Alzheimer, A. (191
Page 166 and 167: 148 BIBLIOGRAPHY Baillard, C., Hell
Page 168 and 169: 150 BIBLIOGRAPHY of post mortem mag
Page 170 and 171: 152 BIBLIOGRAPHY B. (2008). Three-d
Page 174 and 175: 156 BIBLIOGRAPHY head in MR images
Page 176 and 177: 158 BIBLIOGRAPHY Evans, A. C., Coll
Page 179 and 180: BIBLIOGRAPHY 161 Ghanei, A., Soltan
Page 181 and 182: BIBLIOGRAPHY 163 Heckemann, R. A.,
Page 183 and 184: BIBLIOGRAPHY 165 R. C. (2003). MRI
Page 185 and 186: BIBLIOGRAPHY 167 Konrad, C., Ukas,
Page 187 and 188: BIBLIOGRAPHY 169 Mahony, R. and Man
Page 189 and 190: BIBLIOGRAPHY 171 disease, mild cogn
Page 191 and 192: BIBLIOGRAPHY 173 Petersen, R. C., S
Page 193 and 194: BIBLIOGRAPHY 175 Rorden, C. and Bre
Page 195 and 196: BIBLIOGRAPHY 177 Shen, K., Bourgeat
Page 197 and 198: BIBLIOGRAPHY 179 Barillot, C., Hayn
Page 199 and 200: BIBLIOGRAPHY 181 Tzourio-Mazoyer, N
Page 201 and 202: BIBLIOGRAPHY 183 Vos, F. M., de Bru
Page 203 and 204: BIBLIOGRAPHY 185 Woolrich, M. W., J
show all

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

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?