References

1. Aglioti S., Smania N., and Peru A., Frames of reference for mapping tactile stimuli in brain-damaged patients, J. Cogn. Neurosci., 11, 67, 1999.

2. Allison T., McCarthy G., Wood C. C., et al., Human cortical potentials evoked by stimulation of the II. Cytoarchitectonic areas generating long-latency, J. Neurophysiol., 62, 711, 1989.

3. Allport A., Visual attention, in Foundations of Cognitive Science, Posner, M. I., (Ed), The MIT Press, Cambridge, 1989, 631.

4. Andersen R. A., Asanuma C., Essick G., et al., Corticocortical connections of anatomically and physiologically defined subdivisions within the inferior parietal lobule, J. Comp. Neurol., 296, 65, 1990.

5. Andersen R. A., Multimodal integration for the representation of space in the posterior parietal cortex, Philos. Trans. R. Soc. Lond. B Biol. Sci., 352, 1421, 1997.

6. Augustine J. R., Circuitry and functional aspects of the insular lobe in primates including humans, Brain Res. Rev., 22, 229, 1996.

7. Battaglia-Mayer A., Ferraina S., Mitsuda T., et al., Early coding of reaching in the parietooccipital cortex, J. Neurophysiol., 83, 2374, 2000.

8. Baumgartner C., Doppelbauer A., Deecke L., et al., Neuromagnetic investigation of somatotopy of human hand somatosensory cortex, Exp. Brain Res., 87, 641, 1991.

9. Baumgartner C., Doppelbauer A., Sutherling W. W., et al., Human somatosensory cortical finger representation as studied by combined neuromagnetic and neuroelectric measurements, Neurosci. Lett., 134, 103, 1991.

10. Biermann K., Schmitz F., Witte O. W., et al., Interaction of finger representation in the human first somatosensory cortex: a neuromagnetic study, Neurosci. Lett., 251, 13, 1998.

11. Binkofski F., Buccino G., Posse S., et al., A fronto-parietal circuit for object manipulation in man: evidence from an fMRI-study, Eur. J. Neurosci., 11, 3276, 1999.

12. Binkofski F., Buccino G., Stephan K. M., et al., A parieto-premotor network for object manipulation: evidence from neuroimaging, Exp. Brain Res., 128, 210, 1999.

13. Bodegärd A., Geyer S., Naito E., et al., Somatosensory areas in man activated by moving stimuli: cytoarchitectonic mapping and PET, Neuroreport, 11, 187, 2000.

14. Bodegärd A., Ledberg A., Geyer S., et al., Object shape differences reflected by somatosensory cortical activation in human, J. Neurosci., 20:RC51, 1, 2000.

15. Boynton G. M., Engel S. A., Glover G. H., et al., Linear systems analysis of functional magnetic resonance imaging in human V1, J. Neurosci., 16, 4207, 1996.

16. Braun C., Schweizer R., Elbert T., et al., Differential activation in somatosensory cortex for different discrimination tasks, J. Neurosci., 20, 446, 2000.

17. Brodmann K., Brodmann's 'Localisation in the Cerebral Cortex,' Smith-Gordon, London, 1994.

18. Buchner H., Reinartz U., Waberski T. D., et al., Sustained attention modulates the immediate effect of de-afferentation on the cortical representation of the digits: source localization of somatosensory evoked potentials in humans, Neurosci. Lett., 260, 57, 1999.

19. Buchner H., Richrath P., Grunholz J., et al., Differential effects of pain and spatial attention on digit representation in the human primary somatosensory cortex, Neuroreport, 11, 1289, 2000.

20. Burton H. and Jones E. G., The posterior thalamic region and its cortical projection in new and old world monkeys, J. Comp. Neurol., 168, 249, 1976.

Burton H., Second somatosensory cortex and related areas, in Cerebral Cortex, Sensory-Motor Areas and Aspects of Cortical Connectivity, Jones, E. G. and Peters, A. (Eds), Plenum, New York, 1986, 31.

Burton H. and Carlson M., Second somatic sensory cortical area (SII) in a prosimian primate, Galago crassicaudatus, J. Comp. Neurol., 168, 200, 1986. Burton H., Alloway K. D., and Rosenthal P., Somatotopic organization of the second somatosensory cortical area after lesions of the primary somatosensory area in infant and adult cats, Brain Res., 448, 397, 1988.

Burton H., Sathian K., and Dian-Hua S., Altered responses to cutaneous stimuli in the second somatosensory cortex following lesions of the postcentral gyrus in infant and juvenile macaques, J. Comp. Neurol., 291, 395, 1990.

Burton H. and Sinclair R. J., Second somatosensory area in macaque monkeys. I. Neuronal responses to controlled, punctate indentations of glabrous skin on the hand, Brain Res., 520, 262, 1990.

Burton H., Videen T. O., and Raichle M. E., Tactile vibration activated foci in insular and parietal opercular cortex studied with positron emission tomography: mapping the second somatosensory area in humans, Somatosen. & Mot. Res., 10, 297, 1993. Burton H., Fabri M., and Alloway K., Cortical areas within the lateral sulcus connected to cutaneous representations in areas 3b and 1: A revised interpretation of the second somatosensory area in macaque monkeys, J. Comp. Neurol., 355, 539, 1995. Burton H., MacLeod A. M., Videen T. O., et al., Multiple foci in parietal and frontal cortex activated by rubbing embossed grating patterns across fingerpads: a positron emission tomography study in humans, Cereb. Cortex, 7, 3, 1997. Burton H., Sinclair R. J., Hong S. Y., et al., Tactile-spatial and cross-modal attention effects in the second somatosensory and 7b cortical areas of rhesus monkeys, Soma-tosen. & Mot. Res., 14, 237, 1997.

Burton H., Abend N., MacLeod A.-M. K., et al., Tactile attention tasks enhance activation in somatosensory regions of parietal cortex: A positron emission tomography study, Cereb. Cortex, 9, 662, 1999.

Burton H. and Sinclair R. J., Tactile-spatial and cross-modal attention effects in the primary somatosensory cortical areas 3b and 1-2 of rhesus monkeys, Somatosen. & Mot. Res., 17, 213, 2000.

Burton H. and Sinclair R. J., Attending to and remembering tactile stimuli: a review of brain imaging data and single neuron responses, J. Clin. Neurophysiol., 17, 575, 2000.

Carlson M., Characteristics of sensory deficits following lesions of Brodmann's areas 1 and 2 in the postcentral gyrus of macaca mulatta, Brain Res., 204, 424, 1981. Carlson M. and Burton H., Recovery of tactile function after damage to primary or secondary somatic sensory cortex in infant macaca mulatta, J. Neurosci., 8, 833, 1988. Carmichael S. T. and Price J. L., Architectonic subdivision of the orbital and medial prefrontal cortex in the macaque monkey, J. Comp. Neurol., 346, 366, 1994. Caselli R. J., Rediscovering tactile agnosia, Mayo Clin. Proc., 66, 129, 1991. Caselli R. J., Ventrolateral and dorsomedial somatosensory association cortex damage produces distinct somesthetic syndromes in humans, Neurology, 43, 762, 1993. Chelazzi L. and Corbetta M., Cortical Mechanisms of Visuospatial Attention in the Primate Brain, in The New Cognitive Neurosciences, M.E. Gazzaniga, (Ed), MIT Press, Boston, 1999, 667.

Clark S. A., Allard T., Jenkins W. M., et al., Receptive fields in the body-surface map in adult cortex defined by temporally correlated inputs, Nature, 332, 444, 1988.

Coghill R. C., Talbot J. D., Evan A. C., et al., Distributed processing of pain and vibration by the human brain, J. Neurosci., 14, 4095, 1994.

Colby C. L., Duhamel J. R., and Goldberg M. E., The analysis of visual space by the lateral intraparietal area of the monkey: the role of extraretinal signals, in Progress in Brain Research, Hicks, T. P., Molotchnikoff, S., and Ono, T. (Eds), Elsevier Science Publishers, New York, 1993, 307.

Colby C. L. and Goldberg M. E., Space and attention in parietal cortex, Ann. Rev. Neurosci., 22, 319, 1999.

Conti F., Fabri M., and Manzoni T., Bilateral receptive fields and callosal connectivity of the body midline representation in the first somatosensory area of primates, Soma-tosens. Res., 3, 273, 1986.

Corbetta M., Miezin F. M., Dobmeyer S., et al., Selective and divided attention during visual discriminations of shape, color, and speed: functional anatomy by positron emission tomography, J. Neurosci., 11, 2383, 1991.

Corbetta M., Frontoparietal cortical networks for directing attention and the eye to visual locations: Identical, independent, or overlapping neural systems?, Proc. Natl. Acad. Sci. (U.S.A.), 95, 831, 1998.

Corbetta M., Akbudak E., Conturo T., et al., A common network of functional areas for attention and eye movements, Neuron, 21, 761, 1998.

Corbetta M., Kincade J. M., Ollinger J. M., et al., Voluntary orienting is dissociated from target detection in human posterior parietal cortex [published erratum appears in Nat. Neurosci. 2000 May; 3(5):521], Nat. Neurosci., 3, 292, 2000. Critchley M., The phenomenon of tactile inattention with special reference to parietal lesions, Brain, 72, 538, 1949.

Damasio H., Human Brain Anatomy in Computerized Images, Oxford University Press, New York, 1995.

Deibert E., Kraut M., Kremen S., et al., Neural pathways in tactile object recognition, Neurology, 52, 1413, 1999.

Denny-Brown D. and Chambers R. A., The parietal lobe and behavior, Res. Pub. Ass. Nerv. and Ment. Dis., 36, 35, 1958.

Desimone R. and Duncan J., Neural mechanisms of selective visual attention, Ann. Rev. Neurosci., 18, 193, 1995.

Dinse H. R., Godde B., Hilger T., et al., Short-term functional plasticity of cortical and thalamic sensory representations and its implication for information processing, Adv. Neurol., 73, 159, 1997.

Disbrow E., Roberts T., and Krubitzer L., Somatotopic organization of cortical fields in the lateral sulcus of Homo sapiens: evidence for SII and PV, J. Comp. Neurol., 418, 1, 2000.

Disbrow E. A., Slutsky D. A., Roberts T. P., et al., Functional MRI at 1.5 tesla: a comparison of the blood oxygenation level-dependent signal and electrophysiology, Proc. Natl. Acad. Sci. (U.S.A.), 97, 9718, 2000.

Drevets W. C., Burton H., Videen T. O., et al., Blood flow changes in human soma-tosensory cortex during anticipated stimulation, Nature, 373, 249, 1995. Dreyer D. A., Loe P. R., Metz C. B., et al., Representation of head and face in postcentral gyrus of the macaque, J. Neurophysiol., 38, 714, 1975. Economo C. V., The Cytoarchitectonics of the Human Cerebral Cortex, Oxford University Press, London, 1929.

Eidelberg D. and Galaburda A. M., Inferior parietal lobule: divergent architectonic asymmetries in the human brain, Arch. Neurol., 41, 843, 1984.

Elbert T., Pantev C., Wienbruch C., et al., Increased cortical representation of the fingers of the left hand in string players, Science, 270, 305, 1995. Elbert T., Sterr A., Flor H., et al., Input-increase and input-decrease types of cortical reorganization after upper extremity amputation in humans, Exp. Brain Res., 117, 161, 1997.

Elbert T. and Flor H., Magnetoencephalographic investigations of cortical reorganization in humans, Electroencephalogr. Clin. Neurophysiol., 49, 284, 1999. Fabri M., Polonara G., Quattrini A., et al., Role of the corpus callosum in the somatosensory activation of the ipsilateral cerebral cortex: an fMRI study of callosotomized patients, Eur. J. Neurosci., 11, 3983, 1999.

Faggin B. M., Nguyen K. T., and Nicolelis M. A., Immediate and simultaneous sensory reorganization at cortical and subcortical levels of the somatosensory system, Proc. Natl. Acad. Sci. (U.S.A.), 94, 9428, 1997.

Fiez J. A., Raichle M. E., Miezin F. M., et al., PET studies of auditory and phonological processing: effects of stimulus characteristics and task demands, J. Cogn. Neurosci., 7, 357, 1995.

Flor H., Elbert T., Muhlnickel W., et al., Cortical reorganization and phantom phenomena in congenital and traumatic upper-extremity amputees, Exp. Brain Res., 119, 205, 1998. Florence S. L., Taub H. B., and Kaas J. H., Large-scale sprouting of cortical connections after peripheral injury in adult macaque monkeys [see comments], Science, 282, 1117, 1998.

Forss N., Hari R., Salmelin R., et al., Activation of the human posterior parietal cortex by median nerve stimulation, Exp. Brain Res., 99, 309, 1994.

Forss N. and Jousmaki V., Sensorimotor integration in human primary and secondary somatosensory cortices, Brain Res., 781, 259, 1998.

Forss N., Hietanen M., Salonen O., et al., Modified activation of somatosensory cortical network in patients with right-hemisphere stroke, Brain, 122, 1889, 1999. Fox P. T., Burton H., and Raichle M. E., Mapping human somatosensory cortex with positron emission tomography, J. Neurosurg., 67, 34, 1987.

Francis S. T., Kelly E. F., Bowtell R., et al., FMRI of the responses to vibratory stimulation of digit tips, Neuroimage, 11, 188, 2000.

Friedman D. P. and Jones E. G., Thalamic input to areas 3a and 2 in monkeys, J. Neurophysiol., 45, 59, 1981.

Friedman D. P. and Murray E. A., Thalamic connectivity of the second somatosensory area and neighboring somatosensory cortical fields in the lateral sulcus of the monkey, J. Comp. Neurol., 252, 348, 1986.

Friedman D. P., Murray E. A., O'Neill J. B., et al., Cortical connections of the soma-tosensory fields of the lateral sulcus of macaques: Evidence for a corticolimbic pathway for touch, J. Comp. Neurol., 252, 323, 1986.

Frot M. and Mauguiere F., Timing and spatial distribution of somatosensory responses recorded in the upper bank of the sylvian fissure (SII area) in humans, Cereb. Cortex, 9, 854, 1999.

Gabrieli J. D., Poldrack R. A., and Desmond J. E., The role of left prefrontal cortex in language and memory, Proc. Natl. Acad. Sci. (U.S.A.), 95, 906, 1998. Gandhi S. P., Heeger D. J., and Boynton G. M., Spatial attention affects brain activity in human primary visual cortex, Proc. Natl. Acad. Sci. (U.S.A.), 96, 3314, 1999. Garcha H. S. and Ettlinger G., The effects of unilateral or bilateral removals of the second somatosensory cortex (area SII): a profound tactile disorder in monkeys, Cortex, 14, 319, 1978.

García-Larrea L., Bastuji H., and Mauguiere F., Mapping study of somatosensory evoked potentials during selective spatial attention, Electroencephalogr. Clin. Neurophysiol., 80, 201, 1991.

Gardner E. P., Ro J. Y., Debowy D., et al., Facilitation of neuronal activity in somatosensory and posterior parietal cortex during prehension, Exp. Brain Res., 127, 329, 1999.

Garraghty P. E., Florence S. L., Tenhula W. N., et al., Parallel thalamic activation of the first and second somatosensory areas in prosimian primates and tree shrews, J. Comp. Neurol., 311, 289, 1991.

Gelnar P. A., Krauss B. R., Szeverenyi N. M., et al., Fingertip representation in the human somatosensory cortex: an fMRI study, Neuroimage, 7, 261, 1998. Geyer S., Schleicher A., and Zilles K., Areas 3a, 3b, and 1 of human primary somatosensory cortex, Neuroimage, 10, 63, 1999.

Godde B., Spengler F., and Dinse H. R., Associative pairing of tactile stimulation induces somatosensory cortical reorganization in rats and humans, Neuroreport, 8, 281, 1996.

Godde B., Stauffenberg B., Spengler F., et al., Tactile coactivation-induced changes in spatial discrimination performance, J. Neurosci., 20, 1597, 2000. Hadjikhani N. and Roland P. E., Cross-modal transfer of information between the tactile and the visual representations in the human brain: A positron emission tomographic study, J. Neurosci., 18, 1072, 1998.

Hämäläinen H., Hiltunen J., and Titievskaja I., fMRI activations of SI and SII cortices during tactile stimulation depend on attention, Neuroreport, 11, 1673, 2000. Hammeke T. A., Yetkin F. Z., Mueller W. M., et al., Functional magnetic resonance imaging of somatosensory stimulation, Neurosurgery, 35, 677, 1994. Hansson T. and Brismar T., Tactile stimulation of the hand causes bilateral cortical activation: a functional magnetic resonance study in humans, Neurosci. Lett., 271, 29, 1999.

Hari R., Hämäläinen M., Kaukoranta E., et al., Neuromagnetic responses from the second somatosensory cortex in man, Acta Neurol. Scand., 68, 207, 1983. Hari R., Reinikainen K., Kaukoranta E., et al., Somatosensory evoked cerebral magnetic fields from SI and SII in man, Electroencephalogr. Clin. Neurophysiol., 57, 254, 1984.

Hari R., Magnetic evoked fields of the human brain: basic principles applications, Electroencephalogr. Clin. Neurophysiol., 41, 3, 1990.

Hari R., Hämäläinen H., Hämäläinen M., et al., Separate finger representations at the human second cortex, Neuroscience, 37, 245, 1990.

Hari R., Karhu J., Hämäläinen M., et al., Functional organization of the human first and second somatosensory cortices: a neuromagnetic study, Eur. J. Neurosci., 5, 724, 1993.

Hashimoto I., Saito Y., Iguchi Y., et al., Distal-proximal somatotopy in the human hand somatosensory cortex: a reappraisal, Exp. Brain Res., 129, 467, 1999. Haxby J. V., Horwitz B., Ungerleider L. G., et al., The functional organization of human extrastriate cortex: A PET-rCBF study of selective attention to faces and locations, J. Neurosci., 14, 6336, 1994.

Hodge C. J., Jr., Huckins S. C., Szeverenyi N. M., et al., Patterns of lateral sensory cortical activation determined using functional magnetic resonance imaging, J. Neu-rosurg., 89, 769, 1998.

Hoechstetter K., Rupp A., Meinck H. M., et al., Magnetic source imaging of tactile input shows task-independent attention effects in SII, Neuroreport, 11, 2461, 2000.

Hsiao S. S., O'Shaughnesy D. M., and Johnson K. O., Effects of selective attention on spatial form processing in monkey primary and secondary somatosensory cortex, J. Neurophysiol., 70, 444, 1993.

Huttunen J., Wikstrom H., Korvenoja A., et al., Significance of the second soma-tosensory cortex in sensorimotor integration: enhancement of sensory responses during finger movements, Neuroreport, 7, 1009, 1996.

Hyvarinen J., Poranen A., and Jokinen Y., Influence of attentive behavior on neuronal responses to vibration in primary somatosensory cortex of the monkey, J. Neurophysiol., 43, 870, 1980.

Hyvarinen J., Posterior parietal lobe of the primate brain, Physiol. Rev., 62, 1060, 1982.

Ito M. and Gilbert C. D., Attention modulates contextual influences in the primary visual cortex of alert monkeys, Neuron, 22, 593, 1999.

Iwamura Y. and Tanaka M., Postcentral neurons in hand region of area 2: Their possible role in the form discrimination of objects, Brain Res., 150, 662, 1978. Iwamura Y., Tanaka M., Sakamoto M., et al., Rostrocaudal gradients in the neuronal receptive field complexity in the finger region of the alert monkey's postcentral gyrus, Exp. Brain Res., 92, 360, 1993.

Iwamura Y., Hierarchical somatosensory processing, Curr. Opin. Neurobiol., 8, 522, 1998.

Jain N., Florence S. L., Qi H. X., et al., Growth of new brainstem connections in adult monkeys with massive sensory loss, Proc. Natl. Acad. Sci. (U.S.A.), 97, 5546, 2000. Jenkins W. M., Merzenich M. M., Ochs M. T., et al., Functional reorganization of primary somatosensory cortex in adult owl monkeys after behaviorally controlled tactile stimulation, J. Neurophysiol., 63, 82, 1990.

Johannsen P., Jakobsen J., Bruhn P., et al., Cortical sites of sustained and divided attention in normal elderly humans, Neuroimage, 6, 145, 1997.

Johansen-Berg H., Christensen V., Woolrich M., et al., Attention to touch modulates activity in both primary and secondary somatosensory areas, Neuroreport, 11, 1237,

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