Faculty Publications

Manabu  Tanifuji

Manabu Tanifuji, D.Eng.

Integrative Neural Systems / Senior Team Leader

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  1. 1

    Obara K, O'Hashi K, and Tanifuji M: "Mechanisms for shaping receptive field in monkey area TE", Journal of Neurophysiology, DOI: 10.1152/jn.00348.2017 (2017)

  2. 2

    Watanabe H, Rajagopalan U.M, Nakamichi Y, Igarashi K.M., Kadono H, and Tanifuji M: "Functional optical coherence tomography of rat olfactory bulb with periodic odor stimulation", Biomedical Optics Express, 7(3), 841-854 (2016)

  3. 3

    Uchida G, and Tanifuji M: "Independent noise enhances synchronization in heterogeneous systems", Journal of the Physical Society of Japan, 83(9), 093801 (2014)

  4. 4

    Murata T, Hamada T, Shimokawa T, Tanifuji M, and Yanagida T: "Stochastic process underlying emergent recognition of visual objects hidden in degraded images.", PLoS One, 9(12), e115658 (2014)

  5. 5

    Sato T, Uchida G, Lescroart MD, Kitazono J, Okada M, and Tanifuji M: "Object representation in inferior temporal cortex is organized hierarchically in a mosaic-like structure.", J Neurosci, 33(42), 16642-56 (2013)

  6. 6

    Suzuki W, Tsunoda K, Hanazono G, and Tanifuji M: "Stimulus-induced changes of reflectivity detected by opticalcoherence tomography in macaque retina.", Invest Ophthalmol Vis Sci, 54(9), 6345-54 (2013)

  7. 7

    Miyakawa N, Katsumata N, Blake DT, Merzenich MM, and Tanifuji M: "High-density multielectrode array with independently maneuverable electrodes and silicone oil fluid isolation system for chronic recording from macaque monkey.", J Neurosci Methods, 211, 114-24 (2012)

  8. 8

    Igarashi KM, Ieki N, An M, Yamaguchi Y, Nagayama S, Kobayakawa K, Kobayakawa R, Tanifuji M, Sakano H, Chen WR, and Mori K: "Parallel mitral and tufted cell pathways route distinct odor information to different targets in the olfactory cortex.", J Neurosci, 32(23), 7970-85 (2012)

  9. 9

    Hanazono G, Tsunoda K, Kazato Y, Suzuki W, and Tanifuji M: "Functional topography of rod and cone photoreceptors in macaque retina determined by retinal densitometry.", Invest Ophthalmol Vis Sci, 53(6), 2796-803 (2012)

  10. 10

    Hayashi R, and Tanifuji M: "Which image is in awareness during binocular rivalry? Reading perceptual status from eye movements.", J Vis, 12(3), 5, 1-11 (2012)

  11. 11

    Watanabe H, Rajagopalan UM, Nakamichi Y, Igarashi KM, Kadono H, and Tanifuji M: "Swept source optical coherence tomography as a tool for real time visualization and localization of electrodes used in electrophysiological studies of brain in vivo.", Biomed Opt Express, 2(11), 3129-34 (2011)

  12. 12

    Watanabe H, Rajagopalan UM, Nakamichi Y, Igarashi KM, Madjarova VD, Kadono H, and Tanifuji M: "In vivo layer visualization of rat olfactory bulb by a swept source optical coherence tomography and its confirmation through electrocoagulation and anatomy.", Biomed Opt Express, 2(8), 2279-87 (2011)

  13. 13

    Suzuki W, and Tanaka K.: "Development of monotonic neuronal tuning in the monkey inferotemporal cortex through long-term learning of fine shape discrimination.", Eur J Neurosci, 33(4), 748-57 (2011)

  14. 14

    Kazato Y, Shibata N, Hanazono G, Suzuki W, Tanifuji M, and Tsunoda K: "Novel snapshot imaging of photoreceptor bleaching in macaque and human retinas.", Jpn J Ophthalmol, 54(4), 349-56 (2010)

  15. 15

    Borra E, Ichinohe N, Sato T, Tanifuji M, and Rockland KS: "Cortical connections to area TE in monkey: hybrid modular and distributed organization.", Cereb Cortex, 20(2), 257-70 (2010)

  16. 16

    Hayashi R, Sugita Y, Nishida S, and Kawano K.: "How motion signals are integrated across frequencies: study on motion perception and ocular following responses using multiple-slit stimuli.", J Neurophysiol, 103(1), 230-43 (2009)

  17. 17

    Sato T, Uchida G, and Tanifuji M: "Cortical columnar organization is reconsidered in inferior temporal cortex.", Cereb Cortex, 19(8), 1870-88 (2009)

  18. 18

    Tsunoda K, Hanazono G, Inomata K, Kazato Y, Suzuki W, and Tanifuji M: "Origins of retinal intrinsic signals: a series of experiments on retinas of macaque monkeys.", Jpn J Ophthalmol, 53(4), 297-314 (2009)

  19. 19

    Rajagopalan UM, Tsunoda K, and Tanifuji M: "Using the light scattering component of optical intrinsic signals to visualize in vivo functional structures of neural tissues.", Methods Mol Biol, 489, 111-32 (2009)

  20. 20

    Op de Beeck HP, Dicarlo JJ, Goense JB, Grill-Spector K, Papanastassiou A, Tanifuji M, and Tsao DY: "Fine-scale spatial organization of face and object selectivity in the temporal lobe: do functional magnetic resonance imaging, optical imaging, and electrophysiology agree?", J Neurosci, 28(46), 11796-801 (2008)

  21. 21

    Hanazono G, Tsunoda K, Kazato Y, Tsubota K, and Tanifuji M: "Evaluating neural activity of retinal ganglion cells by flash-evoked intrinsic signal imaging in macaque retina.", Invest Ophthalmol Vis Sci, 49(10), 4655-63 (2008)

  22. 22

    Inomata K, Tsunoda K, Hanazono G, Kazato Y, Shinoda K, Yuzawa M, Tanifuji M, and Miyake Y: "Distribution of retinal responses evoked by transscleral electrical stimulation detected by intrinsic signal imaging in macaque monkeys.", Invest Ophthalmol Vis Sci, 49(5), 2193-200 (2008)

  23. 23

    Przybyszewski AW, Sato T, and Fukuda M.: "Optical filtering removes non-homogenous illumination artifacts in optical imaging.", J Neurosci Methods, 168(1), 140-5 (2007)

  24. 24

    Rajagopalan UM, and Tanifuji M: "Functional optical coherence tomography reveals localized layer-specific activations in cat primary visual cortex in vivo.", Opt Lett, 32(17), 2614-6 (2007)

  25. 25

    Hanazono G, Tsunoda K, Shinoda K, Tsubota K, Miyake Y, and Tanifuji M: "Intrinsic signal imaging in macaque retina reveals different types of flash-induced light reflectance changes of different origins.", Invest Ophthalmol Vis Sci, 48(6), 2903-12 (2007)

  26. 26

    Yamane Y, Tsunoda K, Matsumoto M, Phillips AN, and Tanifuji M: "Representation of the spatial relationship among object parts by neurons in macaque inferotemporal cortex.", J Neurophysiol, 96(6), 3147-56 (2006)

  27. 27

    Fukuda M, Wang P, Moon CH, Tanifuji M, and Kim SG: "Spatial specificity of the enhanced dip inherently induced by prolonged oxygen consumption in cat visual cortex: implication for columnar resolution functional MRI.", Neuroimage, 30(1), 70-87 (2006)

  28. 28

    Uchida G, Fukuda M, and Tanifuji M: "Correlated transition between two activity states of neurons.", Phys Rev E Stat Nonlin Soft Matter Phys, 73(3 Pt 1), 31910 (2006)

  29. 29

    Tanifuji M, Tsunoda K, and Yamane Y: "Representation of object images by combinations of visual features in the macaque inferior temporal cortex.", Novartis Found Symp, 270, 217-25; discussion 226-37 (2006)

  30. 30

    Fukuda M, Rajagopalan UM, Homma R, Matsumoto M, Nishizaki M, and Tanifuji M: "Localization of activity-dependent changes in blood volume to submillimeter-scale functional domains in cat visual cortex.", Cereb Cortex, 15(6), 823-33 (2005)

  31. 31

    Ojima H, Takayanagi M, Potapov D, and Homma R.: "Isofrequency band-like zones of activation revealed by optical imaging of intrinsic signals in the cat primary auditory cortex.", Cereb Cortex, 15(10), 1497-509 (2005)

  32. 32

    Sugai T, Miyazawa T, Fukuda M, Yoshimura H, and Onoda N.: "Odor-concentration coding in the guinea-pig piriform cortex.", Neuroscience, 130(3), 769-81 (2004)

  33. 33

    Tsunoda K, Oguchi Y, Hanazono G, and Tanifuji M: "Mapping cone- and rod-induced retinal responsiveness in macaque retina by optical imaging.", Invest Ophthalmol Vis Sci, 45(10), 3820-6 (2004)

  34. 34

    Yoshimura H, Sugai T, Fukuda M, Segami N, and Onoda N.: "Cortical spatial aspects of optical intrinsic signals in response to sucrose and NaCl stimuli.", Neuroreport, 15(1), 17-20 (2004)

  35. 35

    Li H, Fukuda M, Tanifuji M, and Rockland KS.: "Intrinsic collaterals of layer 6 Meynert cells and functional columns in primate V1.", Neuroscience, 120(4), 1061-9 (2003)

  36. 36

    Ishii K, Kaneda M, Li H, Rockland KS, and Hashikawa T.: "Neuron-specific distribution of P2X7 purinergic receptors in the monkey retina.", J Comp Neurol, 459(3), 267-77 (2003)

  37. 37

    Maheswari RU, Takaoka H, Kadono H, Homma R, and Tanifuji M.: "Novel functional imaging technique from brain surface with optical coherence tomography enabling visualization of depth resolved functional structure in vivo.", J Neurosci Methods, 124(1), 83-92 (2003)

  38. 38

    Rajagopalan UM, Honma R, Kadono H, and Tanifuji M: "Functional optical coherence tomography to reveal functional architecture of cat visual cortex in vivo", Proceedings of SPIE-The International Society for Optical Engineering, 5140, 77-83 (2003)

  39. 39

    Rajagopalan UM, Takaoka H, Honma R, Kadono H, and Tanifuji M: "Functional imaging of cat primary visual cortex with optical coherence tomography", Proceedings of SPIE-The International Society for Optical Engineering, 4619, 128-136 (2002)

  40. 40

    Fukuda M, Rajagopalan UM, Homma R, and Tanifuji M: "Contribution of blood volume changes to intrinsic optical signals", International Congress Series, 1235, 165-171 (2002)

  41. 41

    Rajagopalan U, Takaoka H, Homma R, Kadono H, and Tanifuji M: "Implementation of optical coherence tomography (OCT) in visualization of functional structures of cat visual cortex", Optics Communications, 202, 47-54 (2002)

  42. 42

    Tsunoda K, Yamane Y, Nishizaki M, and Tanifuji M.: "Complex objects are represented in macaque inferotemporal cortex by the combination of feature columns.", Nat Neurosci, 4(8), 832-8 (2001)

  43. 43

    Uchida N, Takahashi YK, Tanifuji M, and Mori K.: "Odor maps in the mammalian olfactory bulb: domain organization and odorant structural features.", Nat Neurosci, 3(10), 1035-43 (2000)

  44. 44

    Wang G, Tanifuji M, and Tanaka K.: "Functional architecture in monkey inferotemporal cortex revealed by in vivo optical imaging.", Neurosci Res, 32(1), 33-46 (1998)

  45. 45

    Ikeda H, Ryu PD, Park JB, Tanifuji M, Asai T, and Murase K.: "Optical responses evoked by single-pulse stimulation to the dorsal root in the rat spinal dorsal horn in slice.", Brain Res, 812(1-2), 81-90 (1998)

  46. 46

    Sekino Y, Obata K, Tanifuji M, Mizuno M, and Murayama J.: "Delayed signal propagation via CA2 in rat hippocampal slices revealed by optical recording.", J Neurophysiol, 78(3), 1662-8 (1997)

  47. 47

    Tanifuji M, and Toyama K: "Imaging a Computational Process in the Visual Cortex.", Neural Netw, 9(8), 1351-6 (1996)

  48. 48

    Tanifuji M, Yamanaka A, Sunaba R, Terakawa S, and Toyama K.: "Optical responses evoked by white matter stimulation in rat visual cortical slices and their relation to neural activities.", Brain Res, 738(1), 83-95 (1996)

  49. 49

    Wang G, Tanaka K, and Tanifuji M.: "Optical imaging of functional organization in the monkey inferotemporal cortex.", Science, 272(5268), 1665-8 (1996)

  50. 50

    Tanifuji M, Sugiyama T, and Murase K.: "Horizontal propagation of excitation in rat visual cortical slices revealed by optical imaging.", Science, 266(5187), 1057-9 (1994)

  51. 51

    Sugitani M, Sugai T, Tanifuji M, and Onoda N.: "Signal propagation from piriform cortex to the endopiriform nucleus in vitro revealed by optical imaging.", Neurosci Lett, 171(1-2), 175-8 (1994)

  52. 52

    Yamashita S, Park JB, Ryu PD, Inukai H, Tanifuji M, and Murase K.: "Possible presence of the ATP-sensitive K channel in isolated spinal dorsal horn neurons of the rat.", Neurosci Lett, 170(2), 208-12 (1994)

  53. 53

    Sugitani M, Sugai T, Tanifuji M, Murase K, and Onoda N.: "Optical imaging of the in vitro guinea pig piriform cortex activity using a voltage-sensitive dye.", Neurosci Lett, 165(1-2), 215-8 (1994)

  54. 54

    Tanifuji M, Yamanaka A, Sunaba R, and Toyama K.: "Propagation of excitation in the visual cortex studied by the optical recording.", Jpn J Physiol, 43 Suppl 1, S57-9 (1993)