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Cogn Neuropsychol 33:26\u201347. 10.1080\/02643294.2016.1168791","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1080\/02643294.2016.1168791"},{"@attributes":{"IdType":"pmc"},"@text":"PMC4975087"},{"@attributes":{"IdType":"pubmed"},"@text":"27327353"}]}},{"Citation":"Beauchamp MS, Yasar NE, Kishan N, Ro T (2007) Human MST but not MT responds to tactile stimulation. J Neurosci 27:8261\u20138267. 10.1523\/JNEUROSCI.0754-07.2007","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1523\/JNEUROSCI.0754-07.2007"},{"@attributes":{"IdType":"pmc"},"@text":"PMC6673053"},{"@attributes":{"IdType":"pubmed"},"@text":"17670972"}]}},{"Citation":"Cohen JC, Bolanowski SJ, Verrillo RT (2005) A direct comparison of exogenous and endogenous inhibition of return and selective attention mechanisms in the somatosensory system. Somatosens Mot Res 22:269\u2013279. 10.1080\/08990220500420335","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1080\/08990220500420335"},{"@attributes":{"IdType":"pubmed"},"@text":"16503580"}]}},{"Citation":"Colby CL. (1998) Action-oriented spatial reference frames in cortex. Neuron 20:15\u201324. 10.1016\/S0896-6273(00)80429-8","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1016\/S0896-6273(00)80429-8"},{"@attributes":{"IdType":"pubmed"},"@text":"9459438"}]}},{"Citation":"Craig JC. (2003) The effect of hand position and pattern motion on temporal order judgments. Percept Psychophys 65:779\u2013788. 10.3758\/BF03194814","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.3758\/BF03194814"},{"@attributes":{"IdType":"pubmed"},"@text":"12956585"}]}},{"Citation":"Heed T, Aza\u00f1\u00f3n E (2014) Using time to investigate space: a review of tactile temporal order judgments as a window onto spatial processing in touch. Front Psychol 5:1\u201316. 10.3389\/fpsyg.2014.00076","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.3389\/fpsyg.2014.00076"},{"@attributes":{"IdType":"pmc"},"@text":"PMC3925972"},{"@attributes":{"IdType":"pubmed"},"@text":"24596561"}]}},{"Citation":"Jones SR, Kerr CE, Wan Q, Pritchett DL, H\u00e4m\u00e4l\u00e4inen M, Moore CI (2010) Cued spatial attention drives functionally relevant modulation of the mu rhythm in primary somatosensory cortex. J Neurosci 30:13760\u201313765. 10.1523\/JNEUROSCI.2969-10.2010","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1523\/JNEUROSCI.2969-10.2010"},{"@attributes":{"IdType":"pmc"},"@text":"PMC2970512"},{"@attributes":{"IdType":"pubmed"},"@text":"20943916"}]}},{"Citation":"Kilgard MP, Merzenich MM (1995) Anticipated stimuli across skin. Nature 373:663. 10.1038\/373663a0","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1038\/373663a0"},{"@attributes":{"IdType":"pubmed"},"@text":"7854442"}]}},{"Citation":"Kitazawa S, Moizumi S, Okuzumi A, Saito F, Shibuya S, Takahashi T, Wada M, Yamamoto S (2007) Reversal of subjective temporal order due to sensory and motor integrations. In: Attention and performance, Vol XXII (Haggard P, Kawato M, Rossetti Y, eds), pp 73\u201397. Oxford: Oxford University Press."},{"Citation":"Lloyd DM, Shore DI, Spence C, Calvert GA (2003) Multisensory representation of limb position in human premotor cortex. Nat Neurosci 6:17\u201318. 10.1038\/nn991","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1038\/nn991"},{"@attributes":{"IdType":"pubmed"},"@text":"12483217"}]}},{"Citation":"Milton A, Pleydell-Pearce CW (2016) The phase of pre-stimulus alpha oscillations influences the visual perception of stimulus timing. Neuroimage 133:53\u201361. 10.1016\/j.neuroimage.2016.02.065","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1016\/j.neuroimage.2016.02.065"},{"@attributes":{"IdType":"pmc"},"@text":"PMC4907635"},{"@attributes":{"IdType":"pubmed"},"@text":"26924284"}]}},{"Citation":"Pineda JA. (2005) The functional significance of mu rhythms: translating \u201cseeing\u201d and \u201chearing\u201d into \u201cdoing.\u201d Brain Res Rev 50:57\u201368. 10.1016\/j.brainresrev.2005.04.005","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1016\/j.brainresrev.2005.04.005"},{"@attributes":{"IdType":"pubmed"},"@text":"15925412"}]}},{"Citation":"Ritterband-Rosenbaum A, Hermosillo R, Kroliczak G, van Donkelaar P (2014) Hand position-dependent modulation of errors in vibrotactile temporal order judgments: the effects of transcranial magnetic stimulation to the human posterior parietal cortex. Exp Brain Res 232:1689\u20131698. 10.1007\/s00221-014-3861-9","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1007\/s00221-014-3861-9"},{"@attributes":{"IdType":"pmc"},"@text":"PMC4037562"},{"@attributes":{"IdType":"pubmed"},"@text":"24562409"}]}},{"Citation":"R\u00f6der B, Spence C, R\u00f6sler F (2002) Assessing the effect of posture change on tactile inhibition-of-return. Exp Brain Res 143:453\u2013462. 10.1007\/s00221-002-1019-7","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1007\/s00221-002-1019-7"},{"@attributes":{"IdType":"pubmed"},"@text":"11914791"}]}},{"Citation":"Takahashi T, Kitazawa S (2017) Modulation of illusory reversal in tactile temporal order by the phase of posterior \u03b1 rhythm. J Neurosci 37:5298\u20135308. 10.1523\/JNEUROSCI.2899-15.2017","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1523\/JNEUROSCI.2899-15.2017"},{"@attributes":{"IdType":"pmc"},"@text":"PMC6596459"},{"@attributes":{"IdType":"pubmed"},"@text":"28450538"}]}},{"Citation":"Takahashi T, Kansaku K, Wada M, Shibuya S, Kitazawa S (2013) Neural correlates of tactile temporal-order judgment in humans: an fMRI study. Cereb Cortex 23:1952\u20131964. 10.1093\/cercor\/bhs179","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1093\/cercor\/bhs179"},{"@attributes":{"IdType":"pubmed"},"@text":"22761307"}]}},{"Citation":"Tassinari G, Campara D (1996) Consequences of covert orienting to non-informative stimuli of different modalities: a unitary mechanism? Neuropsychologia 34:235\u2013245. 10.1016\/0028-3932(95)00085-2","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1016\/0028-3932(95)00085-2"},{"@attributes":{"IdType":"pubmed"},"@text":"8868280"}]}},{"Citation":"Yamamoto S, Kitazawa S (2001) Reversal of subjective temporal order due to arm crossing. Nature: 4:759\u2013765. 10.1038\/89559","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"doi"},"@text":"10.1038\/89559"},{"@attributes":{"IdType":"pubmed"},"@text":"11426234"}]}}]}]}}}