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増大特集 タッチ・ビジョン・アクション
文献概要
体性感覚野について,最近の研究の進展を紹介した。最近はヒトでの研究が主流となっているが,その中でここではサルでの実験成果に関連するものに着目した。本稿で取り上げた主な項目は,①体性感覚野における情報処理の階層性,②中心後回における身体両側情報の統合,③視覚と体性感覚の多感覚的統合,④痛覚と体性感覚野である。体性感覚野が単なる体部位再現の場ではなく,多様な情報処理の場であることを示した。今後研究がさらに進展するにつれ,新たな魅力的側面が浮かび上がることが期待される。
参考文献
1) 岩村𠮷晃: タッチ. 医学書院, 東京, 2001
2) 岩村𠮷晃: 体性感覚の階層的処理と触知覚. 神経進歩48: 510-521, 2004
3) 岩村𠮷晃: 体性感覚野のsomatotopy. Brain Nerve 61: 1373-1382, 2009
4) Iwamura Y: Hierarchical somatosensory processing. Curr Opin Neurobiol 8: 522-528, 1998
5) Iwamura Y, Tanaka M, Sakamoto M, Hikosaka O: Functional subdivisions representing different finger regions in area 3 of the first somatosensory cortex of the conscious monkey. Exp Brain Res 51: 315-326, 1983
6) Iwamura Y, Tanaka M, Sakamoto M, Hikosaka O: Converging patterns of finger representation and complex response properties of neurons in area 1 of the first somatosensory cortex of the conscious monkey. Exp Brain Res 51: 327-337, 1983
7) Iwamura Y, Tanaka M, Sakamoto M, Hikosaka O: Diversity in receptive field properties of vertical neuronal arrays in the crown of the postcentral gyrus of the conscious monkey. Exp Brain Res 58: 400-411, 1985
8) Iwamura Y, Tanaka M, Sakamoto M, Hikosaka O: Rostrocaudal gradients in neuronal receptive field complexity in the finger region of alert monkey's postcentral gyrus. Exp Brain Res 92: 360-368, 1993
9) Lipton ML, Liszewski MC, O'Connell MN, Mills A, Smiley JF, et al: Interactions within the hand representation in primary somatosensory cortex of primates. J Neurosci 30: 15895-15903, 2010
10) Wang Z, Chen LM, Negyessy L, Friedman RM, Mishra A, et al: The relationship of anatomical and functional connectivity to resting-state connectivity in primate somatosensory cortex. Neuron 78: 1116-1126, 2013
11) Negyessy L, Palfi E, Ashaber M, Palmer C, Jakli B, et al: Intrinsic horizontal connections process global tactile features in the primary somatosensory cortex: neuroanatomical evidence. J Comp Neurol 521: 2798-2817, 2013
12) Ashaber L, Palfi E, Friedman RM, Palmer C, Jakli B, et al: Connectivity of somatosensory cortical area 1 form an anatomical substrate for emergence of multifinger receptive fields and complex feature selectivity in the squirrel monkey (Saimiri sciureus). J Comp Neurol, 2013 Nov 9 [Epub ahead of print]
13) Iwamura Y, Tanaka M: Representation of reaching and grasping in the monkey postcentral gyrus. Neurosci Lett 214: 147-150, 1996
14) Iwamura Y, Tanaka M: Postcentral neurons in hand region of area 2: their possible role in the form discrimination of tactile objects. Brain Res 150: 662-666, 1978
15) Iwamura Y, Tanaka M, Hikosaka O, Sakamoto M: Postcentral neurons of alert monkeys activated by the contact of the hand with objects other than the monkey's own body. Neurosci Lett 186: 127-130, 1995
16) Taoka M, Toda T, Iwamura Y: Representation of the midline trunk, bilateral arms and shoulders in the monkey postcentral somatosensory cortex. Exp Brain Res 123: 315-322, 1998
17) Taoka M, Toda T, Iriki A, Tanaka M, Iwamura Y: Bilateral receptive field neurons in the hindlimb region of the postcentral somatosensory cortex in awake macaque monkeys. Exp Brain Res 134: 139-146, 2000
18) Iriki A, Tanaka M, Iwamura Y: Receptive field properties of neurons in the foot region of the primary somatosensory cortex in awake monkeys. Jpn J Physiol 42 (suppl): S202, 1992
19) Hashimoto T, Ueno K, Ogawa A, Asamizuya T, Suzuki C, et al: Hand before foot?: cortical somatotopy suggests manual dexterity is primitive and evolved independently of bipedalism. Philos Trans R Soc Lond B Biol Sci 368: 20120417, 2013
20) Kennedy PM, Inglis JT: Distribution and behavior of glabrous cutaneous receptors in the human foot sole. J Physiol 538: 995-1002, 2002
21) Iwamura Y, Iriki A, Tanaka M: Bilateral hand representation in the postcentral somatosensory cortex. Nature 369: 554-556, 1994
22) Iwamura Y: Bilateral receptive field neurons and callosal connections in the somatosensory cortex. Philos Trans R Soc Lond B Biol Sci 355: 267-274, 2000
23) Iwamura Y, Taoka M, Iriki A: Bilateral activity and callosal connections in the somatosensory cortex. Neuroscientist 7: 419-429, 2001
24) Killackey HP, Gould HJ, Cusick CG, Pons TP, Kaas JH: The relation of corpus callosum connections to architectonic fields and body surface maps in sensorimotor cortex of new and old world monkeys. J Comp Neurol 219: 384-419, 1983
25) Reed JL, Qi HX, Kaas JH: Spatiotemporal properties of neuron response suppression in owl monkey primary somatosensory cortex when stimuli are presented to both hands. J Neurosci 31: 3589-3601, 2011
26) Iriki A, Tanaka M, Iwamura Y: Coding of modified body schema during tool use by macaque postcentral neurons. Neuroreport 7: 2325-2330, 1996
27) Hihara S, Notoya T, Tanaka M, Ichinose S, Ojima H, et al: Extension of corticocortical afferents into the anterior bank of the intraparietal sulcus by tool-use training in adult monkeys. Neuropsychologia 44: 2636-2646, 2006
28) Guipponi O, Wardak C, Ibarrola D, Comte JC, Sappey-Marinier D, et al: Multimodal convergence within the intraparietal sulcus of the macaque monkey. J Neurosci 33: 4128-4139, 2013
29) Kurth R, Villringer K, Curio G, Wolf KJ, Krause T, et al: fMRI shows multiple somatotopic digit representations in human primary somatosensory cortex. Neuroreport 11: 1487-1491, 2000
30) Krause T, Kurth R, Ruben J, Schwiemann J, Villringer K, et al: Representational overlap of adjacent fingers in multiple areas of human primary somatosensory cortex depends on electrical stimulus intensity: an fMRI study. Brain Res 899: 36-46, 2001
31) Shoham D, Grinvald A: The cortical representation of the hand in macaque and human area S-I: high resolution optical imaging. J Neurosci 21: 6820-6835, 2001
32) Sato K, Nariai T, Sasaki S, Yazawa I, Mochida H, et al: Intraoperative intrinsic optical imaging of neuronal activity from subdivisions of the human primary somatosensory cortex. Cereb Cortex 12: 269-280, 2002
33) Nelson AJ, Chen R: Digit somatotopy within cortical areas of the postcentral gyrus in humans. Cereb Cortex 18: 2341-2351, 2008
34) Schweitzer R, Voit D, Frahm J: Finger representations in human primary somatosensory cortex as revealed by high-resolution functional MRI of tactile stimulation. NeuroImage 42: 28-35, 2008
35) Sato K, Nariai T, Sasaki S, Yazawa I, Mochida H: Functional representation of the finger and face in the human somatosensory cortex: intraoperative intrinsic optical imaging. NeuroImage 25: 1292-1301, 2005
36) Besle J, Sanchez-Panchuelo RM, Bowtell R, Francis S, Schluppeck D: Event-related fMRI at 7T reveals overlapping cortical representations for adjacent fingertips in SI of individual subjects. Human Brain Mapping, 2013 Sep 3 [Epub ahead of print]
37) Hsieh CL, Shima F, Tobimatsu S, Sun SJ, Kato M: The interaction of the somatosensory evoked potentials to simultaneous finger stimuli in the human central nervous system: a study using direct recordings. EEG Clin Neurophysiol 196: 135-142, 1995
38) Ishibashi H, Tobimatsu S, Shigeto H, Morioka T, Yamamoto T, et al: Differential interaction of somatosensory inputs in the human primary sensory cortex: a magnetoencephalographic study. Clin Neurophysiol 111: 1095-1102, 2000
39) Ruben J, Krause T, Taskin B, Blankenburg F, Moosmann M, et al: Subarea-specific suppressive interaction in the BOLD responses to simultaneous finger stimulation in human primary somatosensory cortex: evidence for increasing rostro-to-caudal convergence. Cereb Cortex 16: 819-826, 2006
40) Taskin B, Holtze S, Krause T, Villringer A: Inhibitory impact of subliminal electrical finger stimulation on SI representation and perceptual sensitivity of an adjacent finger. NeuroImage 39: 1307-1313, 2008
41) Inui K, Wang X, Tamura Y, Kaneoke Y, Kakigi R: Serial processing in the human somatosensory system. Cereb Cortex 14: 851-857, 2004
42) Bodegard A, Geyer S, Glefkes C, Zilles K, Roland PE: Hierarchical processing of tactile shape in the human brain. Neuron 31: 317-328, 2001
43) Servos P, Lederman S, Wilson D, Gati J: fMRI-derived cortical maps for haptic shape, texture, and hardness. Brain Res Cogn Brain Res 12: 307-313, 2001
44) Van Boven RW, Ingeholm JE, Beauchamp MS, Bikle PC, Ungerleider LG: Tactile form and location processing in the human brain. PNAS 102: 12601-12605, 2005
45) Blatow M, Nennig E, Durst A, Sartor K, Stippich C: fMRI reflects functional connectivity of human somatosensory cortex. NeuroImage 37: 927-936, 2007
46) Eickhoff SB, Glefkes C, Fink GR, Zilles K: Functional lateralization of face, hand, and trunk representation in anatomically defined human somatosensory areas. Cereb Cortex 18: 2820-2830, 2008
47) Van der Horst BJ, Duijndam MJA, Ketels MFM, Wilbers MTJM, Zwijsen SA: Intramanual and intermanual transfer of the curvature aftereffect. Exp Brain Res 187: 491-496, 2008
48) Peelen MV, Rogers J, Wing AM, Downing PE, Bracewell RM: Unitary haptic perception: integrating moving tactile inputs from anatomically adjacent and non-adjacent digits. Exp Brain Res 204: 457-464, 2010
49) Sathian K: Intermanual referral of sensation to anesthetic hands. Neurology 54: 1866-1868, 2000
50) Tame L, Braun C, Lingnau A, Schwarzbach J, Demarchi G, et al: The contribution of primary and secondary cortices to the representation of body parts and body sites: an fMRI adaptation study. J Cogn Neurosci 24: 2306-2320, 2012
51) Jung P, Kleon JC, Wibral M, Hoechstetter K, Blien B, et al: Spatiotemporal dynamics of bimanual integration in human somatosensory cortex and their relevance to bimanual object manipulation. J Neurosci 32: 5667-5677, 2012
52) Ragert P, Nierhaus T, Cohen LG, Villringer A: Interhemispheric interactions between the human primary somatosensory cortices. PLOS ONE 6: e16150, 2011
53) van Ede F, de Lange FP, Maris E: Anticipation increases tactile stimulus processing in the ipsilateral primary somatosensory cortex. Cereb Cortex, 2013 May 3 [Epub ahead of print]
54) Bradley WE, Farrell DF, Ojemann GA: Human cerebrocortical potentials evoked by stimulation of the dorsal nerve of the penis. Somatosens Motor Res 15: 118-127, 1998
55) Rothemund Y, Qi HX, Collins CE, Kaas JH: The genitals and gluteal skin are represented lateral to the foot in anterior parietal somatosensory cortex of macaques. Somatosens Motor Res 19: 302-315, 2002
56) Rothemund Y, Schaefer M, Grüsser SM, Flor H: Localization of the human female breast in primary somatosensory cortex. Exp Brain Res 164: 357-364, 2005
57) Kennett S, Taylor-Clarke M, Haggard P: Noninformative vision improves the spatial resolution of touch in humans. Current Biology 11: 1188-1191, 2001
58) Haggard P, Taylor-Clarke M, Kennett S: Tactile perception, cortical representation and the bodily self. Current Biology 13: R170-R173, 2003
59) Serino A, Padiglioni S, Haggard P, Ladavas E: Seeing the hand boosts feeling on the cheek. Cortex 45: 602-609, 2009
60) Konen CS, Haggard P: Multisensory parietal cortex contributs to visual enhancement of touch in humans: a single-pulse TMS study. Cereb Cortex 24: 501-507, 2014
61) Dionne JK, Meehan SK, Legon W, Staines WR: Crossmodal influences in somatosensory cortex: interaction of vision and touch. Human Brain Mapping 31: 14-25, 2010
62) Dionne JK, Legon W, Staines WR: Crossmodal influences on early somatosensory processing: interaction of vision, touch, and task-relevance. Exp Brain Res 226: 503-512, 2013
63) Gentile G, Petkova VL, Ehrsson HH: Integration of visual and tactile signals from the hand in the human brain: an fMRI study. J Neurophysiol 105: 910-922, 2011
64) Hansson T, Torbjorn N, Bjorkman A, Lundberg P, Nylander L, et al: Sights of touching activates the somatosensory cortex in humans. Scand J Plast Reconstr Surg Hand Surg 43: 267-269, 2009
65) Meyer K, Kaplan JT, Essex R, Damasio H, Damasio A: Seeing touch is correlated with content-specific activity in primary somatosensory cortex. Cereb Cortex 21: 2113-2121, 2011
66) Petkova VI, Ehrsson HH: When right feels left: referral of touch and ownership between the hands. PLOS ONE 4: e6933, 2009
67) Schaefer M, Konczk F, Heinze H-J, Rotte M: Referral of touch and ownership between hands and the role of the somatosensory cortex. PLOS ONE 8: e52768, 2013
68) Oouchida Y, Okada T, Nakashima T, Matsumura M, Sadato N, et al: Your hand movements in my somatosensory cortex: a visuo-kinesthetic function in human area 2.Neuroreport 15: 2019-2023, 2005
69) Blakemore SJ, Bristow D, Bird G, Frith C, Ward J: Somatosensory activations during the observation of touch and a case of vision-touch synaesthesia. Brain 128: 1571-1583, 2005
70) Rizzolatti G, Fogassi L, Gallese V: Neurophysiological mechanisms underlying the understanding and imitation of action. Nat Rev Neurosci 2: 661-670, 2001
71) Banissy MJ, Ward J: Mirror-touch synesthesia is linked with empathy. Nat Neurosci 10: 815-816, 2007
72) Holle H, Banissy MJ, Ward J: Functional and structural brain differences associated with mirror-touch synaesthesia. NeuroImage 83: 1041-1050, 2013
73) Keysers C, Wicker B, Gazzola V, Anton J-L, Fogassi L, et al: A touching sight: SII/PV activation during the observation and experience of touch. Neuron 42: 335-346, 2004
74) Keysers C, Kaas JH, Gazzola V: Somatosensation in social perception. Nat Rev Neurosci 11: 417-428, 2010
75) Ebisch SJH, Perrucci MG, Ferretti A, Gratta CD, Romani GL, et al: The sense of touch: embodied simulation in a visuotactile mirroring mechanism for observed animate or inanimate touch. J Cogn Neurosci 20: 1611-1623, 2008
76) Schaefer M, Xu B, Flor H, Cohen LG: Effects of different viewing perspectives on somatosensory activations during observation of touch. Human Brain Mapping 30: 2722-2730, 2009
77) Saxe R, Jamal N, Powell L: My body or yours?: the effect of visual perspective on cortical body representations. Cereb Cortex 16: 178-182, 2008
78) Bolognini N, Rossetti A, Convento S, Valler G: Understanding others' feelings: the role of the right primary somatosensory cortex in encoding the affective valence of others' touch. J Neurosci 33: 4201-4205, 2013
79) Adolph R, Damasio H, Tranel D, Cooper G, Damasio AR: A role for somatosensory cortices in the visual recognition of emotion as revealed by three-dimensional lesion mapping. J Neurosci 20: 2683-2690, 2000
80) Pitcher D, Garrido L, Walsh V, Duchaine BC: Transcranial magnetic stimulation disrupts the perception and embodiment of facial expressions. J Neurosci 28: 8929-8933, 2008
81) Olausson HW, Cole J, Vallbo A, McGlone F, Elam M, et al: Unmyelinated tactile afferents have opposite effects on insular and somatosensory cortical processing. Neurosci Lett 436: 128-132, 2008
82) Morrison I, Bjornsdotter M, Olausson H: Vicarious responces to social touch in posterior insular cortex are tuned to pleasant caressing speeds. J Neurosci 31: 9554-9562, 2011
83) Garcia-Larrea L: The posterior insular-opercular region and the search of a primary cortex for pain. Neurophysiol Clin 42: 299-313, 2012
84) Wiech K, Lin C, Brodersen KH, Bingel U, Ploner M, et al: Anterior insula integrates information about salience into perceptual decisions about pain. J Neurosci 30: 16324-16331, 2010
85) Mancini F, Haggard P, Iannetti GD, Longo MR, Sereno MI: Fine-grained nociceptive maps in primary somatosensory cortex. J Neurosci 32: 17155-17162, 2012
86) Mancini F, Sambo CF, Ramirez JD, Benett DLH, Haggard P, et al: A fovea for pain at the fingertips. Current Biology 23: 496-500, 2013
87) Haggard P, Iannetti GD, Longo MR: Spatial sensory organization and body representation in pain perception. Curr Biol 23: R164-R176, 2013
88) Vierck CJ, Whitsel BL, Favorov OV, Brown AW, Tommerdahl M: Role of primary somatosensory cortex in the coding of pain. Pain 154: 334-344, 2013
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