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| Article describing the method Description: I. Aganj, G. Sapiro, N. Parikshak, S. K. Madsen, and P. Thompson, “Measurement of cortical thickness from MRI by minimum line integrals on soft-classified tissue,” Human Brain Mapping, vol. 30, no. 10, pp. 3188–3199, 2009. Updated: Oct 16, 2020 | |
| ISBI paper Description: I. Aganj, G. Sapiro, N. Parikshak, S. K. Madsen, and P. Thompson, “Segmentation-free measurement of cortical thickness from MRI,” in Proc. of the 5th IEEE International Symposium on Biomedical Imaging, pp. 1625–1628, Paris, France, 2008. Updated: Oct 16, 2020 | |
| ▼ Application Publications ( 4 ) | + |
| Application in cerebellar cortex analysis Description: C. Liu, W. Ammon, V. Siless, M. Fogarty, R. Wang, A. Atzeni, I. Aganj, J. E. Iglesias, L. Zollei, B. Fischl, J. D. Schmahmann, and H. Wang, “Quantification of volumetric morphometry and optical property in the cortex of human cerebellum at micrometer resolution,” NeuroImage, vol. 244, Article no. 118627, 2021. Updated: Jan 24, 2024 | |
| Application in OCT Description: H. Wang, C. Magnain, R. Wang, J. Dubb, A. Varjabedian, L. S. Tirrell, A. Stevens, J. C. Augustinack, E. Konukoglu, I. Aganj, M. P. Frosch, J. D. Schmahmann, B. Fischl, and D. A. Boas, “as-PSOCT: volumetric microscopic imaging of human brain architecture and connectivity,” NeuroImage, vol. 165, pp. 56–68, 2018. Updated: Oct 16, 2020 | |
| Application in structure subfield thickness measurement Description: J. E. Iglesias, M. R. Sabuncu, I. Aganj, P. Bhatt, C. Casillas, D. Salat, A. Boxer, B. Fischl, and K. Van Leemput, “An algorithm for optimal fusion of atlases with different labeling protocols,” NeuroImage, vol. 106, pp. 451–463, 2015. Updated: Oct 16, 2020 | |
| Conference paper: Application in cerebellar cortex analysis Description: H. Wang, V. Siless, M. Fogarty, I. Aganj, D. Greve, and B. Fischl, “The optical property and morphometry of human cerebellum cortex with automatic serial sectioning polarization sensitive optical coherence tomography,” in Proc. SPIE Photonics West, San Francisco, CA, 2020. Updated: Jan 24, 2024 | |