論文

Original Papers (English)
Reviews and Book chapters (English)
Papers and Reviews (Japanese)

Original Papers (English)

  1. Ito J, Yamane Y, Suzuki M, Maldonado P, Fujita I, Tamura H, Gruen S (April 2017) Switch from ambient to focal processing mode explains the dynamics of free viewing eye movements. Sci. Rep. 7: 1082. doi: 10.1038/s41598-017-01076-w>
  2. Oga T, Elston GN, Fujita I (Mar 2017) Postnatal dendritic growth and spinogenesis of Layer-V pyramidal cells differ between visual, inferotemporal, and prefrontal cortex of the macaque. Front. Neurosci. 11:118. doi: 10.3389/fnins.2017.00118
  3. Oga T, Okamoto T, Fujita I (Sep 2016) Basal dendrites of layer-III pyramidal neurons do not scale with changes in cortical magnification factor in macaque primary visual cortex. Front Neural Circuits. 10:74. doi: 10.3389/fncir.2016.00074
  4. Mochizuki Y, Onaga T, Shimazaki H, Shimokawa T, Tsubo Y, Kimura R, Saiki A, Sakai Y, Isomura Y, Fujisawa S, Shibata K, Hirai D, Furuta T, Kaneko T, Takahashi S, Nakazono T, Ishino S, Sakurai Y, Kitsukawa T, Lee JW, Lee H, Jung MW, Babul C, Maldonado PE, Takahashi K, Arce-McShane FI, Ross CF, Sessle BJ, Hatsopoulos NG, Brochier T, Riehle A, Chorley P, Grün S, Nishijo H, Ichihara-Takeda S, Funahashi S, Shima K, Mushiake H, Yamane Y, Tamura H, Fujita I, Inaba N, Kawano K, Kurkin S, Fukushima K, Kurata K, Taira M, Tsutsui K, Ogawa T, Komatsu H, Koida K, Toyama K, Richmond BJ, Shinomoto S. (May 2016) Similarity in neuronal firing regimes across mammalian species. J Neurosci. 36(21):5736-5747. doi: 10.1523/JNEUROSCI.0230-16.2016
  5. Wang QX, Tanigawa H, Fujita I (May 2016) Postnatal development of intrinsic horizonatal axons in macaque inferior temporal and primary visual cortices. Cerebral Cortex. doi: 10.1093/cercor/bhw105
  6. Abdolrahmani M, Doi T, Shiozaki HM, Fujita I (April 2016) Pooled, but not single-neuron, responses in macaque V4 represent a solution to the stereo correspondence problem. J Neurophysiol 115: 1917-1931 doi: 10.1152/jn.00487.2015.
  7. Tanaka S, Fujita I (Aug 2015). Computation of object size in visual cortical area V4 as a neural basis for size constancy. J.Neurosci., 35(34), 12033-12046.doi:10.1523/JNEUROSCI.2665-14.2015
  8. Doi T, Fujita I (Nov 2014) Cross-matching: A modified cross-correlation underlying threshold energy model and match-based depth perception. Front. Comput. Neurosci. 8: 127, 1-15. doi:10.3389/fncom.2014.00127
  9. Sasaki T, Aoi H, Oga T, Fujita I, Ichinohe N (Jul 2014) Postnatal development of dendritic structure of layer III pyramidal neurons in the medial prefrontal cortex neurons of marmoset. Brain Struct. Funct. doi:10.1007/s00429-014-0853-2 supplimental Information
  10. Doi T, Takano M, Fujita I (Dec 2013) Temporal channels and disparity representations in stereoscopic depth perception. J. Vision 13(13): 26, 1-25. doi:10.1167/13.13.26
  11. Ikezoe K, Mori Y, Kitamura K, Tamura H, Fujita I (Oct 2013) Relationship between the local structure of orientation map and the strength of orientation tuning of neurons in monkey V1: a 2-photon calcium imaging study. J. Neurosci., 33(42): 16818-16827.
    doi:10.1523/JNEUROSCI.2209-13.2013.
  12. Oga T, Aoi H, Sasaki T, Fujita I, Ichinohe N (Feb 2013) Postnatal development of layer III pyramidal cells in the primary visual, inferior temporal, and prefrontal cortices of the marmoset. Front. Neural Circuits. 7: 31, 1-10. doi:10.3389/fncir.2013.00031
  13. Ikezoe K, Tamura H, Kimura F, Fujita I (Aug 2012) Decorrelation of sensory-evoked neuronal responses in rat barrel cortex during postnatal development. Neurosci. Res., 73: 312-320. doi:10.1016/j.neures.2012.05.009
  14. Shiozaki HM, Tanabe S, Doi T, Fujita I (2012) Neural activity in cortical area V4 underlies fine disparity discrimination. J. Neurosci., 32: 3830-3841.
  15. Okamoto T, Ikezoe K, Tamura H, Watanabe M, Aihara K, Fujita I (Oct 2011) Predicted contextual modulation varies with distance from pinwheel centers in the orientation preference map. Scientific Reports, 1: 114, 1-11. doi:10.1038/srep00114
  16. Inagaki M, Fujita I (July 2011) Reference frames for spatial frequency in face representation differ in the temporal visual cortex and amygdala. J. Neurosci., 31: 10371-10379.
  17. Elston GN, Oga T, Okamoto T, Fujita I (July 2011) Spinogenesis and pruning in the anterior ventral inferotemporal cortex of the macaque monkey: an intracellular injection study of layer III pyramidal cells. Frontiers Neuroanat., 5: 42, 1-6.doi:10.3389/fnana.2011.00042
  18. Doi T, Tanabe S, Fujita I (Mar 2011) Matching and correlation computations in stereoscopic depth perception. J. Vision 11: 1, 1-16. Supplement
  19. Kimura F, Itami C, Ikezoe K, Tamura H, Fujita I, Yanagawa Y, Obata K, Ohshima M (Aug 2010) Fast activation of feedforward inhibitory neurons from thalamic input and its relevance to the regulation of spike sequences in the barrel cortex. J. Physiol. 588(15): 2769-2787. doi:10.1113/jphysiol.2010.188177
  20. Kaneko H, Tamura H, Tate S, Kawashima T, Suzuki S, Fujita I (Aug 2010) Multineuronal vectorization is more efficient than time-segmental vectorization for information extraction from neuronal activities in the inferior temporal cortex. Neural Networks 23(6): 733-742. doi:10.1016/j.neunet.2010.03.002
  21. Elston GN, Oga T, Okamoto T, Fujita I (Jun 2010) Spinogenesis and pruning from early visual onset to adulthood: An intracellular injection study of layer III pyramidal cells in the ventral visual cortical pathway of the macaque monkey. Cerebral Cortex 20: 1398-1408. doi:10.1093/cercor/bhp203
  22. Elston GN, Okamoto T, Oga T, Dornan D, Fujita I (Feb 2010) Spinogenesis and pruning in the primary auditory cortex of the macaque monkey (Macaca fascicularis): An intracellular injection study of layer III pyramidal cells. Brain Research 1316: 35-42. doi:10.1016/j.brainres.2009.12.056
  23. Shinomoto S, Kim H, Shimokawa T, Matsuno N, Funahashi S, Shima K, Fujita I, Tamura H, Doi T, Kawano K, Inaba N, Fukushima K, Kurkin S, Kurata K, Taira M, Tsutsui K, Komatsu H, Ogawa T, Koida K, Tanji J, Toyama K (Jul 2009) Relating neuronal firing patterns to functional differentiation of cerebral cortex. PLoS Comput. Biology, 5(7): e1000433, 1-10. doi:10.1371/journal.pcbi.1000433
  24. Kotake Y, Morimoto H, Okazaki Y, Fujita I, Tamura H (Jul 2009) Organization of color-selective neurons in macaque visual area V4. J. Neurophysiol., 102: 15-27. doi:10.1152/jn.90624.2008
  25. Hosoda K, Watanabe M, Wersing H, Koerner E, Tsujino H, Tamura H, Fujita I (Sep 2009) A model for learning topographically organized parts-based representations of objects in visual cortex: topographic non-negative matrix factorization. Neural Comp., 21(9): 2605-2633. doi:10.1162/neco.2009.03-08-722
  26. Elston GN, Oga T, Fujita I (Mar 2009) Spinogenesis and pruning scales across functional hierarchies. J. Neurosci., 29(10): 3271-3275. doi:10.1523/JNEUROSCI.5216-08.2009
  27. Tanabe S, Yasuoka S, Fujita I (Mar 2008) Disparity-energy signals in perceived stereoscopic depth. J. Vision, 8(3): 22, 1-10. doi:10.1167/8.3.22
  28. Kumano H, Tanabe S, Fujita I (Jan 2008) Spatial frequency integration for binocular correspondence in macaque area V4. J. Neurophysiol. 99: 402-408. doi:10.1152/jn.00096.2007
  29. Umeda K, Tanabe S, Fujita I (Jul 2007) Representation of stereoscopic depth based on relative disparity in macaque area V4. J. Neurophysiol. 98: 241-252. doi:10.1152/jn.01336.2006.
  30. Kaneko H, Tamura H, Kawashima T, Suzuki SS, Fujita I (Feb 2007) Efficient signal processing of multineuronal activities for neural interface and prosthesis. Methods of Information in Medicine, 46: 147-150.
  31. Yoneshima H, Yamasaki S, Voelker CCJ, Molnar Z, Christophe E, Audinat E, Takemoto M, Nishiwaki M, Tsuji S, Fujita I, Yamamoto N (Nov 2005) ER81 is expressed in a subpopulation of layer 5 neurons in rodent and primate neocortices. Neuroscience 137(2): 401-412. doi:10.1016/j.neuroscience.2005.08.075
  32. Uka T, Tanabe S, Watanabe M, Fujita I (Nov 2005) Neural correlates of fine depth discrimination in monkey inferior temporal cortex. J. Neurosci. 25: 10796-10802. doi:10.1523/JNEUROSCI.1637-05.2005
  33. Tanabe S, Doi T, Umeda K, Fujita I (Oct 2005) Disparity-Tuning characteristics of neuronal responses to dynamic random-dot stereograms in macaque visual area V4. J. Neurophysiol. 94: 2683-2699. doi:10.1152/jn.00319.2005
  34. Kaneko T, Tamura H, Kawashima T, Suzuki S, Fujita I (2005) Efficient signal processing of multineuronal activities for neural interface and prosthesis. Proceedings of The 5th International Workshop on Biosignal Interpretation, pp. 263-266.
  35. Tamura H, Kaneko H, Fujita I (Aug 2005) Quantitative analysis of functional clustering of neurons in the macaque inferior temporal cortex. Neurosci. Res. 52: 311-322. doi:10.1016/j.neures.2005.04.006
  36. Shinomoto S, Miyazaki Y, Tamura H, Fujita I (Jul 2005) Regional and laminar differences in in vivo firing patterns of primate cortical neurons. J. Neurophysiol. 94: 567-575
    doi:10.1152/jn.00896.2004
  37. Tanigawa H, Wang Q, Fujita I (Dec 2005) Organization of horizontal axons in the inferior temporal cortex and primary visual cortex of the macaque monkey. Cerebral Cortex 15: 1887-1899 doi:10.1093/cercor/bhi067
  38. Tanabe S, Umeda K, Fujita I (2004) Rejection of false-matches for binocular correspondence in macaque visual cortical area V4. J. Neurosci. 24: 8170-8180.
  39. Tamura H, Kaneko H, Kawasaki K, Fujita I (2004) Presumed inhibitory neurons in the macaque inferior temporal cortex: visual response properties and functional interactions with adjacent neurons. J. Neurophysiol. 91: 2782-2796.
  40. Yoshiyama K, Uka T, Tanaka H, Fujita I (2004) Architecture of binocular disparity processing in monkey inferior temporal cortex. Neurosci. Res. 48: 155-167.
  41. Wang Y, Fujita I, Murayama Y (2003) Coding of visual patterns and textures in monkey inferior temporal cortex. NeuroRep., 14: 453-457.
  42. Xu L, Tanigawa H, Fujita I (2003) Distribution of a-Amino-3-Hydroxy-5-Methyl-4-Isoxazolepropionate-Type glutamate receptor subunits (GluR2/3) along the ventral visual pathway in the monkey. J. Comp. Neurol., 456: 396-407.
  43. Watanabe M, Tanaka H, Uka T, Fujita I (2002) Disparity-selective neurons in area V4 of macaque monkeys. J. Neurophysiol., 87: 1960-1973.
  44. Wang Y, Fujita I, Tamura H, Murayama Y (2002) Contribution of GABAergic inhibition to receptive field structures of monkey inferior temporal cortex neurons. Cerebral Cortex, 12: 62-74.
  45. Shimojo S, Paradiso M, Fujita I (2001) What visual perception tells us about mind and brain. Proc. Natl. Acad. Sci. U.S.A., 98: 12340-12341.
  46. Tanaka H, Onoe H, Tsukada H, Fujita I (2001) Attentional modulation of neural activity in the macaque inferior temporal cortex during global and local processing. Neurosci. Res., 39: 469-472.
  47. Tanaka H, Uka T, Yoshiyama K, Kato M, Fujita I (2001) Processing of shape defined by disparity in inferior temporal cortex. J. Neurophyiol., 85: 735-744.
  48. Tanaka H, Fujita I (2000) Global and local processing of visual patterns. Neuroreport, 11: 2881-2884.
  49. Wang Y, Fujita I, Murayama Y (2000) Neuronal mechanisms of selectivity for object features revealed by blocking inhibition in inferotemporal cortex. Nature Neurosci.,3: 807-813. 
  50. Uka T, Tanaka H, Yoshiyama K, Kato M, Fujita I (2000) Disparity Selectivity of neurons in inferior temporal cortex. J. Neurophysiol., 84: 120-132.
  51. Takao M, Wang Y, Miyoshi T, Fujita I, Fukuda J (2000) A new intraretinal recording system with multiple-barreled electrodes for pharmacological studies on cat retinal ganglion cells. J. Neurosci. Methods, 97: 87-92. 
  52. Uka T, Tanaka H, Kato M, Fujita I (1999) Behavioral evidence for visual perception of 3-dimensional surface structures in monkeys. Vision Res., 39: 2399-2410.
  53. Tanigawa H, Fujita I, Kato M, Ojima H (1998) Distribution, morphology, and GABA immunoreactivity of horizontally projecting neurons in the inferior temporal cortex. J. Comp. Neurol., 401: 129-143.
  54. Murayama Y, Fujita I, Kato M (1997) Contrasting forms of synaptic plasticity in inferotemporal and primary visual cortices. Neuroreport, 8: 1503-1508.
  55. Fujita I, Fujita T (1996) Intrinsic connections in the macaque inferior temporal cortex. J. Comp. Neurol., 368: 467-486.
  56. Ito M, Tamura H, Fujita I, Tanaka K (1995) Size and position invairance of neuronal responses in monkey inferotemporal cortex. J. Neurophysiol., 73: 218-226.
  57. Ito M, Fujita I, Tamura H, Tanaka K.(1994) Processing of contrast polarity of visual images in inferotemporal cortex of the macaque monkey. Cerebral Cortex, 5: 499-508.
  58. Fujita I, Tanaka K, Ito M, Cheng K (1992) Columns for visual features of objects in inferotemporal cortex. Nature, 360: 343-346.
  59. Fujita I, Sorensen PW, Stacey NE, Hara TJ (1991) The olfactory system, not the terminal nerve, functions as the primary chemosensory pathway mediating responses to sex pheromones in the goldfish. Brain Behav. Evol., 38: 313-321.
  60. Fujita I, Konishi M (1991) The role of GABAergic inhibition in processing of interaural time difference in the owl’s auditory system. J. Neurosci., 11: 722-739.
  61. Carr CE, Fujita I, Konishi M (1989) Distribution of GABAergic neurons and terminals in the auditory system of the barn owl. J. Comp. Neurol., 286: 190-207.
  62. Onoe H, Ueno R, Fujita I, Nishino H, Oomura Y, Hayaishi O (1988) Prostaglandin D2, a cerebral sleep-inducing substance. Proc. Natl. Acad. Sci. U.S.A., 85: 4082-4086.
  63. Oomura Y, Aou S, Koyama Y, Fujita I, Yoshimatsu H (1988) Central control mechanism of sexual behavior. Brain Res. Bull., 20: 863-870.
  64. Koyama Y, Fujita I, AouS, Oomura Y (Apr.1988) Proceptive presenting elicited by electrical stimulation of the hypothalamus. Brain Res., 446: 199-203.
    doi:10.1016/0006-8993(88)91316-9
  65. Fujita I, Satou M, Ueda K (1988) Morphology of physiologically identified mitral cells in the carp olfactory bulb: a light microscopic study after intracellular staining with horseradish peroxidase. J. Comp. Neurol., 267: 253-268.
  66. Hori T, Kiyohara T, Oomura Y, Nishino H, Aou S, Fujita I (1987) Activity of thermosensitive neurons of preoptic hypothalamus during thermoregulatory operant behavior. Brain Res. Bull., 18: 649-55
  67. Hori T, Kiyohara T, Shibata M, Oomura Y, Nishino H, Aou S, Fujita I (1986) Responsiveness of monkey preoptic thermosensitive neurons to non-thermal emotional stimuli. Brain Res. Bull., 17: 75-82.
  68. Fujita I, Satou M, Ueda K (1985) Ganglion cells of the terminal nerve: morphology and electrophysiology. Brain Res, 335: 148-152.
  69. Yamamoto T, Oomura Y, Nemoto S, Fujita I, Nishino H (1985) A new method for drug application using electrolysis of water. Brain Res Bull, 15: 527-528.
  70. Nozaki M, Fujita I, Saito N, Tsukahara T, Kobayashi H, Ueda K (1985) Distribution of LHRH-like immunoreactivity in the brain of the Japanese eel (Anguilla japonica) with special reference to the nervus terminalis. Zool Sci, 2: 537-547.
  71. Fujita I, Satou M, Ueda K (1984) A field potential study of centripetal and centrifugal connections of the olfactory bulb in the carp, Cyprinus carpio (L.). Brain Res, 321: 33-44.
  72. Satou M, Oka Y, Kusunoki M., Matsushima T, Kato M, Fujita I, Ueda K (1984) Telencephalic and preoptic areas integrate sexual behavior in hime salmon (landlocked red salmon, Oncorhynchus nerka): results of electrical brain stimulation experiments. Physiol Behav, 33: 441-447.
  73. Satou M, Fujita I, Ichikawa M, Yamaguchi K, Ueda K (1983) Field potential and intracellular potential studies of the olfactory bulb in the carp: evidence for a functional separation of the carp olfactory bulb into lateral and medial subdivisions. J Comp Physiol, 152: 319-333.

Reviews and Book chapters (English)

  1. Fujita I, Doi T (June 2016) Weighted parallel contributions of binocular correlation and match signals to conscious perception of depth. Phil Trans R Soc B 20150257. doi: 10.1098/rstb.2015.0257
  2. Elston GN, Fujita I (Aug 2014) Pyramidal cell development: postnatal spinogenesis, dendritic growth, axon growth, and electrophysiology. Front Neuroanat 8: 78, 1-20.doi:10.3389/fnana.2014.00078
  3. Roe AW, Chelazzi L, Connor CE, Conway BR, Fujita I, Gallant JL., Lu H, Vanduffel W (2012) Toward a unified theory of visual area V4. Neuron, 74: 12-29. DOI: 10.1016/j.neuron.2012.03.011
  4. Tanabe S, Umeda K, Fujita I (2004) Neural mechanisms of binocular correspondence in monkey visual area V4. Technical Report on Attention and Cognition No.6 online publication. http://www.L.u-tokyo.ac.jp/AandC/
  5. Tamura H, Kaneko H, Kawasaki K, Fujita I (2003) Inhibitory mechanisms underlying stimulus-selective responses of inferior temporal neurons. In: The Neural Basis of Early Vision, 11: 245-249.
  6. Fujita I (2002) The inferior temporal cortex: architecture, computation, and representation. J. Neurocytol., 31: 359-371.
  7. DeFelipe J, Elston GN, Fujita I, Fuster J, Harrison KH, Hof PR, Kawaguchi Y, Martin KAC, Rockland KS, Thomson AM, Wang SS-H., White EL, Yuste R (2002) Neocortical circuits: evolutionary aspects and specificity versus non-specificity of synaptic connections. Remarks, main conclusions and general comments and discussion. J. Neurocytol., 31: 387-416.
  8. Fujita I (1997) Inferior temporal cortex: columns and horizontal axons. In: Physiology and Anatomy of the Association Cortices (Sakata, H. et al. eds), Harwood Academic Publ. pp.259-268.
  9. Fujita I, Kato M, Murayama Y, Uka, T. (1996) Functional architecture and synaptic plasticity in the inferior temporal cortex. In: Integrative and Molecular Approach to Brain Function (Ito, M. And Miyashita, Y. eds.), Elsevier, pp.147-155.
  10. Tanaka K, Fujita I, Kobatake E, Ito M, Cheng K, Tamura H (1995) Neuronal mechanisms of object recognition. RIKEN Review 9: 3-4.
  11. Fujita I (1995) The warp and weft in the inferior temporal cortex. In: Emotion, Memory and Behavior (Nakajima T, Ono T eds.), Japan Scientific Press, pp. 79-89.
  12. Fujita, I. (1993) Columns in the inferotemporal cortex: machinery for visual representation of objects. Biomed. Res. 14, S4: 21-27.
  13. Tanaka K, Fujita I, Kobatake E, Cheng K, Ito M (1993) Serial processing of visual object-features in the posterior and anterior parts of the inferotemporal cortex. In: Brain Mechanisms of Perception and Memory (Ono, T., Squire, L., Perrett, D., Fukuda, M. eds.), Oxford University Press, Oxford, pp. 34-46.
  14. Fujita I (1992) Detection of object features in visual cortices. In: Advanced Computing for Life-Science, pp. 191-196.
  15. Fujita I (1987) Electrophysiology of the terminal nerve in cyprinids. In: The Terminal Nerve (Nervus Terminalis): Structure, Function and Evolution (Demski, L.S. and Schwanzel-Fukuda, M. eds.) Ann. N.Y. Acad. Sci. 519: 69-79.
  16. Hayaishi O, Ueno R, Onoe H, Osama H, Fujita I, Nishino H, Oomura Y (1987) Prostaglandin D2 induces sleep when infused into the cerebral ventricle. In: Advances in Prostaglandin, Thromboxane, and Leucotriene Research. Vol. 17, (Samueleson, B., Paoletti, R. and Ramwell, P.W. eds.) Raven Press, New York, pp. 946-948.
  17. Satou M, Oka Y, Fujita I, Yamaguchi K, Nagai T, Koyama Y, Shirahata S, Ueda K (1980) Effect of preoptic lesions on male reproductive behavior in the hime salmon, landlocked Onchorhynchus nerka. In: Integrative Control Functions of the Brain. (Ito, M., Tsukahara, N., Kubota, K. and Yagi, K. eds.) Kodansha, Tokyo, 3: 333-335.

 

Papers and Reviews (Japanese)

  1. 稲垣未来男、藤田一郎 (2016 Nov)「側頭連合野の視覚情報処理 (Visual processing in the Ventral Pathway: Shape, face, color, material propertis, and stereoscopic depth)」BRAIN and NERVE 68(11): 1363-1370.
  2. 畑中岳、藤田一郎 (2016) 「大脳皮質におけるテクスチャ表現」脳21 Vol.19 No.4 154-157
  3. 三田真志郎、藤田一郎 (2016) 「大脳皮質と深層学習」脳21 Vol.19 No.3 98-101
  4. 小賀智文、藤田一郎(2015)「超高圧電子顕微鏡による皮質構造の解析」Clinical Neuroscience 33(6): 630-633
  5. 竹内遼介、池添貢司(2013)「二光子励起イメージング法の霊長類大脳皮質への適用」脳21 Vol.16 No.1
  6. 藤田一郎、池添貢司、稲垣未来男(2012)「腹側視覚経路における視覚情報処理」Clinical Neuroscience 30(8): 883-886
  7. 藤田一郎(2010 Oct)「脳科学とニセ脳科学」じっきょう理科資料 No. 68, p1-4
  8. 藤田一郎(2010 Sep)「世間に広がる『脳の迷信』~うそと真実を見分けよう」理科の探検RikaTan, 2010 September リカ先生の10分サイエンスVol. 33, 82-85
  9. 藤田一郎(2010 Aug)「霊長類大脳皮質におけるシナプスの生後発達」Clinical Neuroscience Vol. 28, 862-864
  10. 藤田一郎(2010 Aug)「世界は脳が見ている!~『錯覚』が教える心のふしぎ」理科の探検RikaTan, 2010 August リカ先生の10分サイエンスVol. 32, 56-59
  11. 藤田一郎(2010 Jul)「脳の中はどうやって見るの?~MRIのしくみ」理科の探検RikaTan, 2010 July リカ先生の10分サイエンスVol. 31, 82-85
  12. 藤田一郎(2010)「脳科学ブーム:脳トレ商品を例に考える」医療と検査機器・試薬 別冊(2010年6月) 33(3): 279-283
  13. 藤田一郎(2010)「学生が学ぶ、学生と学ぶ、学生に学ぶ」大阪大学出版会 大阪大学教育実践センター編 「魅力ある授業のために2ー双方向型授業の取り組みを中心にー」p109-121 2010.3.10
  14. 岡本嗣久、小賀智文、藤田一郎(2010)「標的神経細胞の樹状突起形体の可視化(II):様々な細胞種への応用と超高圧電子顕微鏡観察」脳21 Vol. 13 No.1, 85-91目次に掲載の画像
  15. 藤田一郎(Nov 13, 2009)「脳ブームの迷信」飛鳥新社
  16. 小賀智文、岡本嗣久、藤田一郎 (2009) 「標的神経細胞の樹状突起の可視化:(?T) 軟固定大脳皮質への細胞内色素注入法」脳21 Vol. 12 No.4, 71-76
  17. 藤田一郎(2008)「世界は脳でつくられる 視覚と脳の驚くべき関係」自然と科学の情報誌milsil[ミルシル]特集「見る-視覚と脳のふしぎな関係」No. 3, 2008, Vol.1, p10-13
  18. 藤田一郎(2008)「この10年間の『私の研究エポック』を振り返って-先生はカハールに会ったことがあるんですか?-」脳21 Vol.11 No.1 10周年記念特別号 p165-168
  19. 藤田一郎(2007)「行動からニューロンへ」脳21 Vol.10 No.4 348-352
  20. 藤田一郎(2007)「脳が見る、こころを見る」人間総合科学会誌 Vol.3 No.2 通巻第14巻・5号 2007年8月 p101-105(第4回学術集会 2007.2)
  21. 藤田一郎(2007)「見る」とはどういうことかー脳と心の関係をさぐる」(化学同人社 DOJIN選書007)
  22. 藤田一郎(2006)「両眼立体視の脳内機構」 第46回日本視能矯正学会(大阪)2005.11.27 ,日本視能訓練士協会誌 第35巻 August 2006 p31-32
  23. 藤田 一郎(2006)「視覚の主観性を支える神経活動─両眼立体視を例に─ 」生体の科学 2006年02月発行 57(1): 44-50
  24. 田辺誠司、藤田一郎(2004)「両眼立体視の脳内表現」神経回路学会誌 解説論文 11: 64-73
  25. 土井泰次郎、藤田一郎(2004)「形状知覚と物体認識における側頭葉連合野の役割」視覚研究の進歩 48: 176-185
  26. 藤田一郎(2003)「2次元網膜像から3次元世界を見る」学術月報 Vol. 56 No. 4 通巻第701号(日本学術振興会)2003.4.15
  27. 藤田一郎(2003)「側頭葉視覚連合野における物体視覚像の処理」上原記念生命科学財団研究報告集 17:207-209
  28. 池添貢司、藤田一郎(2003)「視覚野における機能構築と情報のプーリング」実験医学増刊 21(17): 160-165
  29. 藤田一郎、田辺誠司、梅田和昌(2003)「側頭葉視覚経路における両眼視差情報処理」豊田研究報告 56: 97-102
  30. 土井泰次郎、藤田一郎(2003)「主観的経験と神経活動」脳21 6(4): 118-122
  31. 川嵜圭祐、藤田一郎、宮田健二(2002)「下側頭葉皮質における半球間情報の結合」脳21、5(1): 42-48
  32. 村上富士夫、倉橋隆、藤田一郎 (2001) 「脳の神秘を探る」(共著)大阪大学出版会
  33. 藤田一郎、谷川久 (2001) 「側頭葉における両眼視差、形、面の情報処理」「脳の高次機能」 朝倉書店、23-33.
  34. 藤田一郎 (2001) 「下側頭葉皮質コラム構造の解剖学的基盤」 財団法人 金原一郎記念医学医療振興財団 助成金研究報告集 第2集(1992年~1996年)p.56
  35. 藤田一郎、田中宏喜、谷川 久 (2001) 「腹側視覚系路における両眼視差と面の情報処理」Vision, 13 (2): 87-91.
  36. 田中秀樹、藤田一郎 (2001) 「全体の知覚、部分の知覚ー森を見て、木を見る」脳21、4 (1): 90-92.
  37. 藤田一郎 (2001) 「脳が見る、脳を見るー視覚認識の脳内過程」学会出版センター「生物はどのように世界を見ているか」(共著)東大出版会
  38. 藤田一郎 (2000) 「ものはどうして見えるのか」小幡邦彦編「脳研究への招待」(共著)共立出版(印刷中)
  39. 藤田一郎 (1999) 「視覚系による3次元面構造の復元」実験医学増刊「脳・神経科学の最先端」(御子紫克彦編)159-165
  40. 田中宏喜、藤田一郎 (1999) 「ものの形の知覚と認識」細胞工学別冊「脳を知る」(久野宗編) 74-85.
  41. 藤田一郎 (1998) 「モジュール構造に見る脳の笑顔」脳21、1 (3): 4-8.
  42. 藤田一郎 (1998) 「マップ、モジュール、情報構造」脳21、1 (3): 9-14
  43. 藤田一郎 (1998) 「陳述記憶の獲得制御」脳21、1 (1): 91-93.
  44. 藤田一郎 (1998) 「記憶と学習の脳内メカニズム」数理科学、415: 42-49.
  45. 田中宏喜、藤田一郎 (1998) 「物体形状の視覚情報処理」細胞工学、17(6): 969-979.
  46. 藤田一郎 (1997) 「記憶学習」Clinical Neuroscience 10: 82-85.
  47. 宇賀貴紀、藤田一郎 (1997) 「錯視のメカニズムーだまし絵が語る視覚認識の脳内機構ム」臨床科学 33(3): 348-356.
  48. 藤田一郎(1997)「サルの視覚認識」「大脳皮質の可塑性」「フクロウの音源定位」青木清編著 図解 生物科学講座4「行動生物学」p34-37, 84-85 (分担執筆)朝倉書店
  49. 藤田一郎、田中秀樹(1996)「顔視覚像の脳内表現:サル上側頭溝皮質『顔細胞』の生理学的解析」財団法人カシオ科学振興財団 平成8年年報 p76-77.
  50. 藤田一郎 (1995) 「下側頭葉皮質ー細胞とコラム」蛋白質核酸酵素 40(6): 192-201.
  51. 村山雄亮、藤田一郎 (1995) 「物体視」遺伝 49(7): 42-47.
  52. 藤田一郎 (1995)「展開する認知脳科学”現状と展望”」ブレインサイエンス 6(4): 291-293.
  53. 藤田一郎 (1994) 「神経回路学会第1回論文賞の内容紹介:下側頭葉皮質に見いだされたコラム構造」日本神経回路学会ニュースレター
  54. 藤田一郎 (1994) 「脳ー巨大なる空白に挑む」117-142(共著)「禅と生命科学」(共著)紀伊国屋書店
  55. 藤田一郎 (1994) 「聴覚神経生理」計測自動制御学会編 「ファジー・ニューロ・AIシステムハンドブック」(分担執筆)オーム社
  56. 藤田一郎 (1994) 「大脳視覚野の生理学」川人光男編 岩波講座認知科学 第3巻「視覚と聴覚」41-88(分担執筆)岩波書店
  57. 藤田一郎 (1994) 「物体像を脳はどう処理するか?」生物物理 34(3): 95-100.
  58. 藤田一郎(1993) 「形の認識:下側頭回における情報処理」日本視能訓練士協会誌 Vol. 21: 161-167.
  59. 藤田一郎 (1993) 「ものを見るー視覚と認識」週間朝日百科「動物たちの地球」96: 234-239.
  60. 藤田一郎 (1993) 「フクロウの音源定位」週間朝日百科「動物たちの地球」96: 238-239.
  61. 藤田一郎 (1993) 「独創的個人研究ー人・その研究(1)大脳側頭葉視覚領野の機能構築」 JRDC(新技術事業団)ニュース 56: 10.
  62. 藤田一郎 (1993) 「形の認識:下側頭回における情報処理」Jpn. Orthopt. J. 21: 161-168.
  63. 藤田一郎 (1992) 「コラム構造」週間朝日百科「動物たちの地球」96: 256
  64. 藤田一郎 (1992)「下側頭葉皮質のコラム構造」文部省重点領域研究ニュースレター「脳の高次機能の計算論的および実験的研究」11: 9-11.
  65. 藤田一郎 (1992) 「耳のずれたフクロウ:聴覚空間認識の脳内機構」生物物理 32(3): 45-51.
  66. 藤田一郎 (1991) 「下側頭回の形態識別機能」神経研究の進歩 35: 414-422.
  67. 藤田一郎 (1991) 「機能不明の脳神経」生体の科学 42(3): 201-203.
    英文題名 “Terminal nerve: the enigmatic cranial nerve”.
  68. 藤田一郎 (1991) 「聴覚情報による外界の認知」伊藤正男編「脳と思考」197-216(分担執筆)紀伊国屋
  69. 下絛信輔,藤田一郎 (1990) 「研究集会討論」1990ヤクルト国際シンポジウム「知覚・認知・脳」報告集 99-103.
  70. 藤田一郎 (1988) 「聴覚受容野形成における抑制性伝達物質GABAの役割」上原記念生命財団研究報告集 2:159-161
  71. 尾上浩隆、上野隆司、早石修、藤田一郎、西野仁雄、大村裕 (1987) 「睡眠物質-生理的睡眠におけるPGD2の作用を中心に」臨床精神医学,16, 955-959
  72. 藤田一郎、大村裕 (1985) 「性行動時,脳ではどのような変化が起きているか」Clinical Neurosciences, 3: 107.
  73. Fujita I, Satou M, Ueda K (1983) Morphology of carp mitral cells intracellularly labeled with horseradish peroxidase. Proc. Jpn. Symp. Taste Smell. 17: 5-8. (In Japanese with English abstract)
  74. Fujita I, Satou M, Ueda K (1982) An evoked potential study of efferent and afferent connections of the carp olfactory bulb. Proc. Jpn. Symp. Taste Smell. 16: 135-138. (In Japanese with English abstract)
  75. Satou M, Fujita I, Ueda K (1981) Responses of olfactory bulb to olfactory nerve volleys in the carp. Proc. Jpn. Symp. Taste Smell. 15: 52-55. (In Japanese with English abstract)
  76. Satou M, Fujita I, Ichikawa M, Ueda K (1980) Inhibition of mitral cells in the carp olfactory bulb. Proc. Jpn. Symp. Taste Smell. 14: 41-44. (In Japanese with English abstract)