生理学研究所 Takemura Lab Sensory & Cognitive Brain Mapping
生理学研究所生理学研究所

論文

論文


  1. Takemura, H. & Rosa, M.P.G. (2021) Understanding structure-function relationships in the mammalian visual system: part one. Brain Structure and Function, 226, 2741-2744. (Editorial)

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  2. Ogawa, S.*, Takemura, H.*, Horiguchi, H., Miyazaki, A., Matsumoto, K., Masuda, Y., Yoshikawa, K. & Nakano, T. (2021) Multi-contrast magnetic resonance imaging of visual white matter pathways in glaucoma patients. medRxiv, 2021.06.29.21259608 (*: equal contribution)

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  3. Amemiya, K., Naito, E. & Takemura, H. (2021) Age dependency and lateralization in the three branches of the human superior longitudinal fasciculus. Cortex, 139, 116-133.

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  4. Masuda, Y., Takemura, H., Terao, M., Miyazaki, A., Ogawa, S., Horiguchi, H., Nakadomari, S., Matsumoto, K., Nakano, T., Wandell, B.A. & Amano, K. (2021) V1 projection zone signals in human macular degeneration depend on task despite absence of visual stimulus. Current Biology, 31(2), 406-412.

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  5. Oishi, H., Takemura, H. & Amano, K. (2020) Macromolecular tissue volume mapping of lateral geniculate nucleus subdivisions in living human brains. bioRxiv 2020.12.26.424373

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  6. Takemura, H.*, Palomero-Gallagher, N.*, Axer, M., Gräßel, D., Jorgensen, M.J., Woods, R. & Zilles, K.* (2020) Anatomy of nerve fiber bundles at micrometer-resolution in the vervet monkey visual system. eLife, 9, e55444. (*: equal contributions)

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  7. Takemura, H. & Thiebaut de Schotten, M. (2020) Perspectives given by structural connectivity bridge the gap between structure and function. Brain Structure and Function, 225(4), 1189-1192. (Editorial)

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  8. Takemura, H., Yuasa, K. & Amano, K. (2020) Predicting neural response latency of the human early visual cortex from MRI-based tissue measurements of the optic radiation. eNeuro, 7(4), ENEURO.0545-19.2020. 1-18.

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  9. Kaneko, T.*, Takemura, H.*, Pestilli, F., Silva, A.C., Ye, F.Q. & Leopold, D.A. (2020) Spatial organization of occipital white matter tracts in the common marmoset. Brain Structure and Function, 225(4), 1313-1326. (*: equal contributions)

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  10. Minami, S., Oishi, H., Takemura, H. & Amano, K. (2020) Inter-individual differences in occipital alpha oscillations correlate with white matter tissue properties of the optic radiation. eNeuro, 7(2), ENEURO.0224-19.2020 1-11.

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  11. Bullock, D., Takemura, H., Caiafa, C.F., Kitchell, L., McPherson, B., Caron, B. & Pestilli, F. (2019) Associative white matter connecting the dorsal and ventral posterior human cortex. Brain Structure and Function, 224(8), 2631-2660.

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  12. Takemura, H.*, Ogawa, S.*, Mezer, A.A., Horiguchi, H., Miyazaki, A., Matsumoto, K., Shikishima, K., Nakano, T. & Masuda, Y. (2019) Diffusivity and quantitative T1 profile of human visual white matter tracts after retinal ganglion cell damage. NeuroImage: Clinical, 23, 101826. (*: equal contributions)

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  13. Takemura, H., Pestilli, F. & Weiner, K.S. (2019) Comparative neuroanatomy: integrating classic and modern methods to understand association fibers connecting dorsal and ventral visual cortex. Neuroscience Research, 146, 1-12.

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  14. Oishi, H.*, Takemura, H.*, Aoki, S.C., Fujita, I. & Amano, K. (2018) Microstructural properties of the vertical occipital fasciculus explain the variability in human stereoacuity. Proceedings of the National Academy of Sciences of the United States of America, 115(48), 12289-12294. (*: equal contributions)

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  15. Uesaki, M., Takemura, H. & Ashida, H. (2018) Computational neuroanatomy of human stratum proprium of interparietal sulcus. Brain Structure and Function, 223(1), 489-507.

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  16. Takemura, H., Pestilli, F., Weiner, K.S., Keliris, G.A., Landi, S., Sliwa, J., Ye, F.Q., Barnett, M., Leopold, D.A., Freiwald, W.A., Logothetis, N.K. & Wandell, B.A. (2017) Occipital white matter tracts in human and macaque. Cerebral Cortex, 27(6), 3346-3359.

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  17. Rokem, A., Takemura, H., Bock, A., Scherf, K. S., Behrmann, M., Wandell, B., Fine, I., Bridge, H. & Pestilli, F. (2017) The visual white matter: The application of diffusion MRI and fiber tractography to vision science. Journal of Vision, 17(2):4, 1-30.

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  18. Takemura, H., Caiafa, C.F., Wandell, B.A. & Pestilli, F. (2016) Ensemble Tractography. PLoS Computational Biology, 12(2), e1004692.

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  19. Takemura, H., Rokem, A., Winawer, J., Yeatman, J. D., Wandell, B. A. & Pestilli, F. (2016) A major human white-matter pathway between dorsal and ventral visual cortex. Cerebral Cortex, 26(5), 2205-2214.

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  20. Ogawa, S., Takemura, H., Horiguchi, H., Terao, M., Haji, T., Pestilli, F., Yeatman, J.D., Tsuneoka, H., Wandell, B.A. & Masuda, Y. (2014) White matter consequences of retinal receptor and ganglion cell damage. Investigative Ophthalmology & Visual Science, 55(10), 6976-6986.

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  21. Takemura, H., Ashida, H., Amano, K., Kitaoka, A. & Murakami, I. (2012) Neural correlates of induced motion perception in the human brain. The Journal of Neuroscience, 32(41), 14344-14354.

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  22. Takemura, H., Tajima, S. & Murakami, I. (2011) Whether dots moving in two directions appear coherent or transparent depends on directional biases induced by surrounding motion. Journal of Vision, 11(14):17, 1-17.

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  23. Takemura, H., Samejima, K., Vogels, R., Sakagami, M. & Okuda, J. (2011) Stimulus-dependent adjustment of reward prediction error in the midbrain. PLoS ONE, 6(12), e28337.

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  24. Takemura, H. & Murakami, I. (2010) Visual motion detection sensitivity is enhanced by an orthogonal motion aftereffect. Journal of Vision, 10(11):7, 1-12.

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  25. Tajima, S., Takemura, H., Murakami, I. & Okada, M. (2010) Neuronal population decoding explains the change in signal detection sensitivity caused by task-irrelevant perceptual bias. Neural Computation, 22(10), 2586-2614.

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  26. Takemura, H. & Murakami, I. (2010) Visual motion detection sensitivity is enhanced by orthogonal induced motion. Journal of Vision, 10(2):9, 1-13.

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