Ahissar, M. and Hochstein, S. (1997). Task difficulty and the specificity of perceptual learning. Nature, 387, 401-406. Allen, S.W. and Brooks, L.R. (1991). Specializing the operation of an explicit rule. J Exp Psychol Gen, 120, 3-19. Bach-y-Rita, P. (1980). Brain plasticity as a basis for therapeutic procedures. In: Recovery of function: theoretical considerations for brain injury rehabilitation (ed. Bach-y-Rita, P.), Hans Huber, Vienna, pp. 225-263. Bassetti, C., Bogousslavsky, J. and Regli, F. (1993). Sensory syndromes in parietal stroke. Neurology, 43, 1942-1949. Becker, S. (1996). Mutual information maximization: models of cortical self-organization. Network Comp Neural Syst, 7, 7-31. Burton, H., MacLeod, A.M., Videen, T.O. and Raichle, M.E. (1997). 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, 3-17.
Byl, N., Roderick, J., Mohamed, O., Hanny, M., Kotler, J., Smith, A., Tang, M. and Abrams, G. (2003). Effectiveness of sensory and motor rehabilitation of the upper limb following the principles of neuroplasticity: patients stable poststroke. Neurorehab Neural Re, 17, 176-191.
Byl, N.N. and Merzenich, M.M. (2000). Principles of neuroplas-ticity: implications for neurorehabilitation and learning. In: Downey and Darling's Physiological Basis of Rehabilitation Medicine (eds. Gonzalez, E.S., Myers, S., Edelstein, J., Liebermann, J.S. and Downey, J.A.), Butterworth-Heinemann, Boston, pp. 609-628.
Callahan, A.D. (1995). Methods of compensation and reeducation for sensory dysfunction. In: Rehabilitation of the Hand: Surgery and Therapy (eds. Hunter, J.M., Mackin, E.J. and Callahan, A.D.), Mosby, St Louis, pp. 701-714.
Carey, J.R., Kimberley, T.J., Lewis, S.M., Auerbach, E.J., Dorsey, L., Rundquist, P. and Ugurbil, K. (2002). Analysis of fMRI and finger tracking training in subjects with chronic stroke. Brain, 125, 773-788.
Carey, L.M. (1993). Tactile and Proprioceptive Discrimination Loss After Stroke: Training Effects and Quantitative Measurement, LaTrobe University, Melbourne.
Carey, L.M. (1995). Somatosensory loss after stroke. Crit Rev Phys Rehabil Med, 7, 51-91.
Carey, L.M. and Matyas, T.A. (2005). Training of somatosensory discrimination after stroke: facilitation of stimulas generalization. Am JPhys med Rehabil, 88, 428-442.
Carey, L.M., Abbott, D.F., Egan, G.F., Bernhardt, J., Donnan, G.A. (2005). Motor impairment and recovery in the upper limb after stroke: behavioral and neuroanatomical correlates. Stroke, 36, 625-629.
Carey, L.M., Abbott, D.F., Puce, A., Jackson, G.D., Syngeniotis, A. and Donnan, G.A. (2002a). Reemergence of activation with poststroke somatosensory recovery: a serial fMRI case study. Neurology, 59, 749-752.
Carey, L.M., Matyas, T.A. and Morales, G. (2002b). Influence of touch sensation and its retraining on finger grip after stroke. In: 13th World Congress of Occupational Therapists, Stockholm, Sweden.
Carey, L.M., Matyas, T.A. and Oke, L.E. (1993). Sensory loss in stroke patients: effective tactile and proprioceptive discrimination training. Arch Phys Med Rehabil, 74, 602-611.
Carey, L.M., Matyas, T.A. and Oke, L.E. (2002c). Evaluation of impaired fingertip texture discrimination and wrist position sense in patients affected by stroke: comparison of clinical and new quantitative measures. J Hand Ther, 15, 71-82.
Carey, L.M., Oke, L.E. and Matyas, T.A. (1996). Impaired limb position sense after stroke: a quantitative test for clinical use. Arch Phys Med Rehabil, 77, 1271-1278.
Carey, L.M., Oke, L.E. and Matyas, T.A. (1997). Impaired touch discrimination after stroke: a quantitative test. J Neurol Rehabil, 11, 219-232.
Chan, T.-C. and Turvey, M.T. (1991). Perceiving the vertical distances of surfaces by means of a hand-held probe. J Exp Psychol Hum Percept Perform, 17, 347-358.
Clark, F.J. and Horch, K.W. (1986). Kinesthesia. In: Handbook of Perception and Human Performance, Vol. 1. Sensory Processes and Perception (eds. Boff, K.R., Kaufman, L. and Thomas, J.P.), John Wiley, New York, (chapter. 13).
Corkin, S., Milner, B. and Rasmussen, T. (1970). Somatosensory thresholds: contrasting effects of post-central gyrus and posterior parietal-lobe excisions. Arch Neurol, 23, 41-58.
Cormier, S.M. and Hagman, J.D. (eds) (1987). Transfer of Learning: Contemporary Research and Applications, Academic Press, San Diego.
Dannenbaum, R.M. and Dykes, R.W. (1988). Sensory loss in the hand after sensory stroke: therapeutic rationale. Arch Phys Med Rehabil, 69, 833-839.
Dannenbaum, R.M. and Dykes, R.W. (1990). Evaluating sustained touch-pressure in severe sensory deficits: meeting an unanswered need. Arch Phys Med Rehabil, 71, 455-459.
Darian-Smith, I. and Oke, L.E. (1980). Peripheral neural representation of the spatial frequency of a grating moving across the monkey's finger pad. J Physiol, 309, 117-133.
De Jersey, M.C. (1979). Report on a sensory programme for patients with sensory deficits. Aust JPhysiother, 25, 165-170.
Dellon, A.L. (1981). Evaluation of Sensibility and Re-education of Sensation in the Hand, Williams & Wilkins, Baltimore.
Dellon, A.L. (2000). Somatosensory Testing and Rehabilitation, Institute for Peripheral Nerve Surgery, Baltimore.
Epstein, W., Hughes, B., Schneider, S.L. and Bach-y-Rita, P. (1989). Perceptual learning of spatiotemporal events: evidence from an unfamiliar modality. J Exp Psychol: Hum Percept Perform, 15, 28-44.
Ettlinger, G. and Wilson, W.A. (1990). Cross-modal performance: behavioural processes, phylogenetic considerations and neural mechanisms. Behav Brain Res, 40, 169-192.
Gardner, E.P. and Kandel, E.R. (2000). Touch. In: Principles of Neural Science (eds. Kandel, E.R., Schwartz, J.H. and Jessell, T.M.), McGraw-Hill, New York, pp. 451-471.
Gardner, E.P. and Martin, J.H. (2000). Coding of sensory information. In: Principles of neural science. (eds. Kandel, E.R., Schwartz, J.H. and Jessell, T.M.), McGraw-Hill, New York, pp. 412-429.
Gaubert, C.S. and Mockett, S.P. (2000). Inter-rater reliability of the Nottingham method of stereognosis assessment. Clin Rehabil, 14, 153-159.
Gentilucci, M., Toni, I., Daprati, E. and Gangitano, M. (1997). Tactile input of the hand and the control of reaching to grasp movements. Exp Brain Res, 114, 130-137.
Gibson, E.J. (1969). Principles of Perceptual Learning and Development, Meredith Corporation, New York.
Gibson, E.J. (1991). An odyssey in learning and perception, Massachusetts Institute of Technology Press, Cambridge.
Goldstone, R.L. (1998). Perceptual learning. Annu Rev Psychol, 49, 585-612.
Head, H. and Holmes, G. (1911-1912). Sensory disturbances from cerebral lesions. Brain, 34, 102-271.
Holmgren, H., Leijon, G., Boivies, J., Johansson, I. and Ilievska, L. (1990). Central post-stroke pain: somatosensory evoked potentials in relation to location of the lesion and sensory signs. Pain, 40, 43-52.
Jeannerod, M., Michel, F. and Prablanc, C. (1984). The control of hand movements in a case of hemianaesthesia following a parietal lesion. Brain, 107, 899-920.
Johansson, R.S. (1996). Sensory control of dexterous manipulation in humans. In: Hand and Brain: the Neurophysiology and Psychology of Hand Movements (eds. Wing, A.M., Haggard, P. and Flanagan, J.R.), Academic Press, San Diego, pp. 381-414.
Johansson, R.S. and Westling, G. (1984). Roles of glabrous skin receptors and sensorimotor memory in automatic control of precision grip when lifting rougher or more slippery objects. Exp Brain Res, 56, 550-564.
Johansson, R.S., Häger, C. and Bäckström, L. (1992). Somatosensory control of precision grip during unpredictable pulling loads: III. Impairments during digital anesthesia. Exp Brain Res, 89, 204-213.
Johnson, K.O. and Hsiao, S.S. (1992). Neural mechanisms of tactual form and texture perception. Annu Rev Neurosc, 15, 227-250.
Jones, E.G. and Pons, T.P. (1998). Thalamic and brainstem contributions to large-scale plasticity of primate somatosen-sory cortex. Science, 282, 1121-1125.
Karni, A., Meyer, G., Jezzard, P., Adams, M.M., Turner, R. and Ungerleider, L.G. (1995). Functional MRI evidence for adult motor cortex plasticity during motor skill learning. Nature, 377, 155-158.
Kim, J.S. and Choi-Kwon, S. (1996). Discriminative sensory dysfunction after unilateral stroke. Stroke, 27, 677-682.
Klatzky, R.L., Lederman, S.J. and Matula, D.E. (1991). Imagined haptic exploration in judgments of object properties. J Exp Psychol Learn, Memory Cognit, 17, 314-322.
Kusoffsky, A. (1990). Sensory Function and Recovery After Stroke, Karolinska Institute, Stockholm.
Kusoffsky, A., Wadell, I. and Nilsson, B.Y. (1982). The relationship between sensory impairment and motor recovery in patients with hemiplegia. Scand J Rehabil Med, 14, 27-32.
Lane, N.E. (1987). Skill Acquisition Rates and Patterns: issues and Training Implications. Springer-Verlag, New York.
Lederman, S.J. and Klatzky, R.L. (1993). Extracting object properties through haptic exploration. Acta Psychol, 84, 29-40.
Lederman, S.J., Thorne, G. and Jones, B. (1986). Perception of texture by vision and touch: multidimensionality and intersensory integration. J Exp Psychol: Human Percept Perform, 12, 169-180.
Liepert, J., Bauder, H., Miltner, W.H.R., Taub, E. and Weiller, C.
(2000). Treatment-induced cortical reorganization after stroke in humans. Stroke, 31, 1210-1216.
Lincoln, N.B., Crow, J.L., Jackson, J.M., Waters, G.R., Adams, S.A. and Hodgson, P. (1991). The unreliability of sensory assessments. Clin Rehabil, 5, 273-282.
Lincoln, N.B., Jackson, J.M. and Adams, S.A. (1998). Reliability and revision of the Nottingham Sensory Assessment for stroke patients. Physiotherapy, 84, 358-365.
Merzenich, M.M. and Jenkins, W.M. (1993). Reorganization of cortical representations of the hand following alterations of skin inputs induced by nerve injury, skin island transfers, and experience. J Hand Ther, April-June, 89-104.
Mesulam, M.-M. (1998). From sensation to cognition. Brain, 121, 1013-1052.
Morley, J.W. (1980). Tactile Perception of Textured Surfaces, University of Melbourne, Australia.
Mountcastle, V.B. (1997). The columnar organization of the neocortex. Brain, 120, 701-722.
Nelles, G., Jentzen, W., Jueptner, M., Muller, S. and Diener, H.C.
(2001). Arm training induced brain plasticity in stroke studied with serial positron emission tomography. Neuroimage, 13, 1146-1154.
Newman, M. (1972). The process of recovery after hemiplegia. Stroke, 3, 702-710.
Nudo, R.J. (1999). Recovery after damage to motor cortical areas. Curr Opin Neurobiol, 9, 740-747.
Nudo, R.J., Milliken, G.W., Jenkins, W.M. and Merzenich, M.M. (1996a). Use-dependent alterations of movement representations in primary motor cortex of adult squirrel monkeys. J Neurosci, 16, 785-807.
Nudo, R.J., Wise, B.M., SiFuentes, F. and Milliken, G.W. (1996b). Neural substrates for the effects of rehabilitative training on motor recovery after ischemic infarct. Science, 272, 1791-1794.
Ohara, S. and Lenz, F.A. (2001). Reorganization of somatic sensory function in the human thalamus after stroke. Ann Neurol, 50, 800-803.
Pascual-Leone, A. and Torres, F. (1993). Plasticity of the sensori-motor cortex representation of the reading finger in Braille readers. Brain, 116, 39-52.
Patel, A.T., Duncan, P.W., Lai, S.-M. and Studenski, S. (2000). The relation between impairments and functional outcomes poststroke. Arch Phys Med Rehabil, 81, 1357-1363.
Plautz, E.J., Milliken, G.W. and Nudo, R.J. (2000). Effects of repetitive motor training on movement representations in adult squirrel monkeys: role of use versus learning. Neurobiol Learn Mem, 74, 27-55.
Puce, A. (2003). Somatosensory function. In: The Concise Corsini Encyclopedia of Psychology and Neuroscience (eds. Criaghead, W.E. and Nemeroff, C.B.), John Wiley & Sons, New York.
Recanzone, G.H., Merzenich, M.M. and Jenkins, W.M. (1992). Frequency discrimination training engaging a restricted skin surface results in an emergence of a cutaneous response zone in cortical area 3a. JNeurophysiol, 67, 1057-1070.
Reding, M.J. and Potes, E. (1988). Rehabilitation outcome following initial unilateral hemispheric stroke: life table analysis approach. Stroke, 19, 1354-1358.
Roland, P.E. (1981). Somatotopical tuning of postcentral gyrus during focal attention in man: a regional cerebral blood flow study. J Neurophysiol, 46, 744-754.
Roland, P.E. (1987). Somatosensory detection of microgeometry, macrogeometry and kinesthesia after localized lesions of the cerebral hemispheres in man. Brain Res Rev, 12, 43-94.
Rossini, P.M., Martino, G., Narici, L., Pasquarelli, A., Peresson, M., Pizzella, V., Tecchio, F., Torrioli, G. and Romani, G.L. (1994). Short-term brain "plasticity" in humans: transient finger representation changes in sensory cortex somatotopy following ischemic anesthesia. Brain Res, 642, 169-177.
Rossini, P.M., Tecchio, F., Pizzella, V., Lupoi, D., Cassetta, E., Pasqualetti, P., Romani, G.L. and Orlacchio, A. (1998). On the reorganization of sensory hand area after mono-hemispheric lesion: a functional (MEG)/anatomical (MRI) integrative study. Brain Res, 782, 153-166.
Rothwell, J.C., Traub, M.M., Day, B.L., Obeso, J.A., Thomas, P.K. and Marsden, C.D. (1982). Manual motor performance in a deafferented man. Brain, 105, 515-542.
Salmoni, A.W., Schmidt, R.A. and Walter, C.B. (1984). Knowledge of results and motor learning: a review and critical reappraisal. Psychol Bull, 95, 355-386.
Sathian, K. and Zangaladze, A. (1997). Tactile learning is task specific but transfers between fingers. Percept Psychophys, 59, 119-128.
Schmidt, R.A. and Lee, T.D. (1999). Motor Control and Learning: A Behavioral Emphasis, Human Kinetics, Illinois.
Schnitzler, A., Seitz, R.J. and Freund, H.-J. (2000). The somatosensory system. In: Brain Mapping: The Systems (eds. Toga, A.W. and Mazziotta, J.C.), Academic Press, San Diego.
Schwartzman, R.J. (1972). Somatesthetic recovery following primary somatosensory projection cortex ablations. Arch Neurol, 27, 340-349.
Seitz, R.J., Azari, N.P., Knorr, U., Binkofski, F., Herzog, H. and Freund, H.-J. (1999). The role of diaschisis in stroke recovery. Stroke, 30, 1844-1850.
Small, S., Hlustik, P., Noll, D., Genovese, C. and Solodkin, A. (2002). Cerebellar hemispheric activation ipsilateral to the paretic hand correlates with functional recovery after stroke. Brain, 125, 1544-1557.
Smania, N., Montagnana, B., Faccioli, S., Fiaschi, A. and Aglioti, S.M. (2003). Rehabilitation of somatic sensation and related deficit of motor control in patients with pure sensory stroke. Arch Phys Med Rehabil, 84, 1692-1702.
Spengler, F., Roberts, T.P., Poeppel, D., Byl, N., Wang, X., Rowley, H.A. and Merzenich, M.M. (1997). Learning transfer and neuronal plasticity in humans trained in tactile discrimination. Neurosci Lett, 232, 151-154.
Van Deusen Fox, J. (1964). Cutaneous stimulation: effects on selected tests of perception. Am J Occup Ther, 18, 53-55.
Vinograd, A., Taylor, E. and Grossman, S. (1962). Sensory retraining of the hemiplegic hand. Am J Occup Ther, 16, 246-250.
Wade, D.T. (1992). Measurement in Neurological Rehabilitation, Oxford University Press, Oxford.
Wadell, I., Kusoffsky, A. and Nilsson, B.Y. (1987). A follow-up study of stroke patients 5-6 years after their brain infarct. Int J Rehabil Res, 10, 103-110.
Ward, N., Brown, M., Thompson, A. and Frackowiak, R. (2003). Neural correlates of motor recovery after stroke: a longitudinal fMRI study. Brain, 126, 2476-2496.
Weiller, C. (1998). Imaging recovery from stroke. Exp Brain Res, 123, 13-17.
Weinreich, M. and Armentrout, S. (1995). A neural model of recovery from lesions in the somatosensory system. J Neurol Rehabil, 9, 25-32.
Wikstrom, H., Roine, R.O., Aronen, H.J., Salonen, O., Sinkkonen, J., Ilmoniemi, R.J. and Huttunen, J. (2000). Specific changes in somatosensory evoked fields during recovery from sensori-motor stroke. Ann Neurol, 47, 353-360.
Wing, A.M., Flanagan, J.R. and Richardson, J. (1997). Anticipatory postural adjustments in stance and grip. Exp Brain Res, 116, 122-130.
Winstein, C.J. and Schmidt, R.A. (1990). Reduced frequency of knowledge of results enhances motor skill learning. J Exp Psychol Learn Memory Cognit, 16, 677-691.
Winward, C.E., Halligan, P.W. and Wade, D.T. (1999). Somatosensory assessment after central nerve damage: the need for standardized clinical measures. Phys Ther Rev, 4, 21-28.
Winward, C.E., Halligan, P.W. and Wade, D.T. (2002). The Rivermead assessment of somatosensory performance (RASP): standardization and reliability data. Clin Rehabil, 16, 523-533.
Wynn Parry, C.B. and Salter, M. (1976). Sensory re-education after median nerve lesions. The Hand, 8, 250-257.
Yekutiel, M. (2000). Sensory Re-education of the Hand After Stroke, Whurr Publishers, London.
Yekutiel, M. and Guttman, E. (1993). A controlled trial of the retraining of the sensory function of the hand in stroke patients. J Neurol Neurosurg Psychiat, 56, 241-244.
Zangaladze, A., Epstein, C.M., Grafton, S.T. and Sathian, K. (1999). Involvement of visual cortex in tactile discrimination of orientation. Nature, 401, 587-590. Zemke, A.C., Heagerty, P.J., Lee, C. and Cramer, S.C. (2003). Motor cortex organization after stroke is related to side of stroke and level of recovery. Stroke, 34, e23-e28.
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