Organization of visual pathways in normal and visually deprived cats.
暂无分享,去创建一个
[1] P. D. Spear,et al. Recovery of Y-cells in the lateral geniculate nucleus of monocularly deprived cats , 1982, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[2] S. Sherman,et al. Effects of monocular deprivation on the structure-function relationship of individual neurons in the cat's lateral geniculate nucleus , 1982, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[3] P. D. Spear,et al. The role of cortico-geniculate projections in the loss of y-cells in monocularly deprived cats , 1981, Vision Research.
[4] M. Stryker,et al. Physiological evidence that the 2-deoxyglucose method reveals orientation columns in cat visual cortex , 1981, Nature.
[5] M. J. Friedlander,et al. Morphology of functionally identified neurons in lateral geniculate nucleus of the cat. , 1981, Journal of neurophysiology.
[6] S. Sherman,et al. Morphology of physiologically identified W-cells in the C laminae of the cat's lateral geniculate nucleus , 1981, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[7] Colin Blakemore,et al. The role of GABAergic inhibition in the cortical effects of monocular deprivation , 1981, Nature.
[8] S. Sherman,et al. Further evidence for an early critical period in the development of the cat's dorsal lateral geniculate nucleus , 1981, The Journal of comparative neurology.
[9] F. Duffy,et al. Role of intracortical inhibition in deprivation amblyopia: reversal by microiontophoretic bicuculline , 1981, Brain Research.
[10] A. Leventhal,et al. The afferent ganglion cells and cortical projections of the retinal recipient zone (RRZ) of the cat's ‘pulvinar complex’ , 1980, The Journal of comparative neurology.
[11] T. Powell,et al. A quantitative electron-microscopical study of the postnatal development of the lateral geniculate nucleus in normal kittens and in kittens with eyelid suture , 1980, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[12] E. Polley,et al. An analysis of the retinal afferents to the cat's medial interlaminar nucleus and to its rostral thalamic extension, the “geniculate wing” , 1980, The Journal of comparative neurology.
[13] P. D. Spear,et al. Effects of monocular deprivation on neurons in cat's lateral suprasylvian visual area. II. Role of visual cortex and thalamus in the abnormalities. , 1980, Journal of neurophysiology.
[14] C. R. Michael,et al. Projection patterns of single physiologically characterized optic tract fibres in cat , 1980, Nature.
[15] A. Graybiel,et al. Autoradiographic evidence for a projection from the pretectal nucleus of the optic tract to the dorsal lateral geniculate complex in the cat , 1980, Brain Research.
[16] W Singer,et al. Monocular activation of visual cortex in normal and monocularly deprived cats: an analysis of evoked potentials. , 1980, The Journal of physiology.
[17] U. Mitzdorf,et al. Effects of monocular deprivation in the lateral geniculate nucleus of the cat: an analysis of evoked potentials. , 1980, The Journal of physiology.
[18] A. Harvey. A physiological analysis of subcortical and commissural projections of areas 17 and 18 of the cat. , 1980, The Journal of physiology.
[19] D. Hubel,et al. The development of ocular dominance columns in normal and visually deprived monkeys , 1980, The Journal of comparative neurology.
[20] A. Harvey. The afferent connexions and laminar distribution of cells in area 18 of the cat. , 1980, The Journal of physiology.
[21] H. Hirsch,et al. Receptive-field properties of different classes of neurons in visual cortex of normal and dark-reared cats. , 1980, Journal of neurophysiology.
[22] P. D. Spear,et al. Functional compensation in lateral suprasylvian visual area following neonatal visual cortex removal in cats. , 1980, Journal of neurophysiology.
[23] R. Freeman,et al. Rescaling of the retinal map of visual space during growth of the kitten's eye , 1980, Brain Research.
[24] P. D. Spear,et al. Age-related changes in effects of monocular deprivation on cat striate cortex neurons. , 1980, Journal of neurophysiology.
[25] S. Sherman,et al. Effects of early monocular lid suture on spatial and temporal sensitivity of neurons in dorsal lateral geniculate nucleus of the cat. , 1980, Journal of neurophysiology.
[26] M. L. Schmidt,et al. A quantitiative study of the occurrence and distribution of cytoplasmic laminated bodies in the lateral geniculate nucleus of the normal adult cat , 1980, The Journal of comparative neurology.
[27] S. Sherman. The functional significance of X and Y cells in normal and visually deprived cats , 1979, Trends in Neurosciences.
[28] Jonathan Stone,et al. Hierarchical and parallel mechanisms in the organization of visual cortex , 1979, Brain Research Reviews.
[29] M. Berkley,et al. Striate cortex and visual acuity functions in the cat , 1979, The Journal of comparative neurology.
[30] G. Henry,et al. Neural path taken by afferent streams in striate cortex of the cat. , 1979, Journal of neurophysiology.
[31] G. Henry,et al. Laminar distribution of first-order neurons and afferent terminals in cat striate cortex. , 1979, Journal of Neurophysiology.
[32] S. Sherman,et al. Retina X- and Y-cells in monocularly lid-sutured cats: normality of spatial and temporal properties , 1979, Brain Research.
[33] S. Murray Sherman,et al. Morphology of physiologically identified neurons in the visual cortex of the cat , 1979, Brain Research.
[34] A. Hendrickson,et al. A difference in [14C]deoxyglucose autoradiographic patterns in striate cortex between Macaca and Saimiri monkeys following monocular stimulation , 1979, Brain Research.
[35] L. Palmer,et al. Retinotopic organization of areas 18 and 19 in the cat , 1979, The Journal of comparative neurology.
[36] S. Sherman,et al. Structure of physiologically identified X and Y cells in the cat's lateral geniculate nucleus. , 1979, Science.
[37] P. D. Spear,et al. Postcritical‐period reversal of effects of monocular deprivation on dorsal lateral geniculate cell size in the cat , 1979, The Journal of comparative neurology.
[38] P. O. Bishop,et al. End-zone region in receptive fields of hypercomplex and other striate neurons in the cat. , 1979, Journal of neurophysiology.
[39] P. O. Bishop,et al. Dimensions and properties of end-zone inhibitory areas in receptive fields of hypercomplex cells in cat striate cortex. , 1979, Journal of neurophysiology.
[40] G. Henry,et al. Anatomical organization of the primary visual cortex (area 17) of the cat. A comparison with area 17 of the macaque monkey , 1979, The Journal of comparative neurology.
[41] A. Sillito. Inhibitory mechanisms influencing complex cell orientation selectivity and their modification at high resting discharge levels. , 1979, The Journal of physiology.
[42] S. Sherman,et al. Lateral geniculate nucleus in dark-reared cats: loss of Y cells without changes in cell size. , 1979, Science.
[43] B. Stein,et al. Corticotectal and other corticofugal projections in neonatal cat , 1979, Brain Research.
[44] R. Freeman,et al. Development of the optical surfaces of the kitten eye , 1978, Vision Research.
[45] R. Freeman,et al. Optical development of the kitten cornea , 1978, Vision Research.
[46] T. Tsumoto. Inhibitory and excitatory binocular convergence to visual cortical neurons of the cat , 1978, Brain Research.
[47] J. Kaas,et al. The identification of relay neurons in the dorsal lateral geniculate nucleus of monkeys using horseradish peroxidase , 1978, The Journal of comparative neurology.
[48] D. Ferster,et al. The axonal arborizations of lateral geniculate neurons in the striate cortex of the cat , 1978, The Journal of comparative neurology.
[49] W. Singer. The effect of monocular deprivation on cat parastriate cortex: asymmetry between crossed and uncrossed pathways , 1978, Brain Research.
[50] W. Foote,et al. Evidence for a retinal projection to the midbrain raphe of the cat , 1978, Brain Research.
[51] J. Pettigrew,et al. Development of single-neuron responses in kitten's lateral geniculate nucleus. , 1978, Journal of neurophysiology.
[52] S. Murray Sherman,et al. Effects of early monocular eyelid suture upon development of relay cell classes in the cat's lateral geniculate nucleus , 1978, The Journal of comparative neurology.
[53] J. Movshon,et al. Spatial and temporal contrast sensitivity of neurones in areas 17 and 18 of the cat's visual cortex. , 1978, The Journal of physiology.
[54] K. Kratz,et al. Studies of the cat's medial interlaminar nucleus: A subdivision of the dorsal lateral geniculate nucleus , 1978, The Journal of comparative neurology.
[55] K. Kratz,et al. Effects of early monocular lid suture upon neurons in the cat's medial interlaminar nucleus , 1978, The Journal of comparative neurology.
[56] J. Pettigrew. The locus coeruleus and cortical plasticity , 1978, Trends in Neurosciences.
[57] J. Stone,et al. The number and distribution of ganglion cells in the cat's retina , 1978, The Journal of comparative neurology.
[58] J. Stone,et al. Estimate of the number of myelinated axons in the cat's optic nerve , 1978, The Journal of comparative neurology.
[59] G. Tucker. Light microscopic analysis of the kitten retina: Postnatal development in the area centralis , 1978, The Journal of comparative neurology.
[60] M. Stryker,et al. Ocular dominance in layer IV of the cat's visual cortex and the effects of monocular deprivation. , 1978, The Journal of physiology.
[61] M. Dubin,et al. Kitten ganglion cells: dendritic field size at 3 weeks of age and correlation with receptive field size. , 1978, Investigative ophthalmology & visual science.
[62] J. S. Lund,et al. Cells of the striate cortex projecting to the Clare-Bishop area of the cat , 1978, Brain Research.
[63] Dr. Margarete Vogel. Postnatal Development of the Cat’s Retina , 1978, Advances in Anatomy, Embryology and Cell Biology / Ergebnisse der Anatomie und Entwicklungsgeschichte / Revues d’anatomie et de morphologie expérimentale.
[64] Ann M. Graybiel,et al. Parallel thalamic zones in the LP-pulvinar complex of the cat identified by their afferent and efferent connections , 1978, Brain Research.
[65] R. Hess,et al. Vision through cataracts. , 1978, Investigative ophthalmology & visual science.
[66] S. Levay,et al. Ocular dominance columns and their development in layer IV of the cat's visual cortex: A quantitative study , 1978, The Journal of comparative neurology.
[67] Y. Frégnac,et al. Early development of visual cortical cells in normal and dark‐reared kittens: relationship between orientation selectivity and ocular dominance. , 1978, The Journal of physiology.
[68] P. D. Spear,et al. Role of visual experience in postcritical‐period reversal of effects of monocular deprivation in cat striate cortex , 1978, The Journal of comparative neurology.
[69] D. W. Watkins,et al. Receptive-field properties of neurons in binocular and monocular segments of striate cortex in cats raised with binocular lid suture. , 1978, Journal of neurophysiology.
[70] C. Blakemore,et al. The effects of pressure blinding in monocularly deprived kittens. , 1978, Archives italiennes de biologie.
[71] R. F. Hess,et al. The threshold contrast sensitivity function in strabismic amblyopia: Evidence for a two type classification , 1977, Vision Research.
[72] G. Henry. Receptive field classes of cells in the striate cortex of the cat , 1977, Brain Research.
[73] D. Rose. Responses of single units in cat visual cortex to moving bars of light as a function of bar length , 1977, The Journal of physiology.
[74] S. Sherman,et al. Percentage of relay cells in the cat's lateral geniculate nucleus , 1977, Brain Research.
[75] T. Wiesel,et al. The distribution of afferents representing the right and left eyes in the cat's visual cortex , 1977, Brain Research.
[76] N. Berman,et al. Connections of the pretectum in the cat , 1977, The Journal of comparative neurology.
[77] R. Guillery,et al. Studies of the modifiability of the visual pathways in midwestern siamese cats , 1977, The Journal of comparative neurology.
[78] S. Sherman,et al. Differential effects of early monocular deprivation on binocular and monocular segments of cat striate cortex. , 1977, Journal of neurophysiology.
[79] J. Graham. An autoradiographic study of the efferent connections of the superior colliculus in the cat , 1977, The Journal of comparative neurology.
[80] S. Sherman,et al. Visual discriminations during eyelid closure in the cat , 1977, Brain Research.
[81] C. Gilbert. Laminar differences in receptive field properties of cells in cat primary visual cortex , 1977, The Journal of physiology.
[82] R. Anker. The prenatal development of some of the visual pathways in the cat , 1977, The Journal of comparative neurology.
[83] B. V. Updyke,et al. Topographic organization of the projections from cortical areas 17, 18, and 19 onto the thalamus, pretectum and superior colliculus in the cat , 1977, The Journal of comparative neurology.
[84] D Ferster,et al. Relay cell classes in the lateral geniculate nucleus of the cat and the effects of visual deprivation , 1977, The Journal of comparative neurology.
[85] P. D. Spear,et al. Quantitative studies of cell size in the cat's dorsal lateral geniculate nucleus following visual deprivation , 1977, The Journal of comparative neurology.
[86] P. D. Spear,et al. Visual receptive-field properties of single neurons in cat's ventral lateral geniculate nucleus. , 1977, Journal of neurophysiology.
[87] C. Blakemore,et al. Monocular deprivation: morphological effects on different classes of neurons in the lateral geniculate nucleus. , 1977, Science.
[88] M. Jeannerod,et al. Lack of recovery in collicular neurons from the effects of early deprivation or neonatal cortical lesion in the kitten , 1977, Brain Research.
[89] S. Levay. Effects of visual deprivation on polyribosome aggregation in visual cortex of the cat , 1977, Brain Research.
[90] R. W. Guillery,et al. Behavioral studies of binocular competition in cats , 1976, Vision Research.
[91] D. W. Watkins,et al. Further differences in receptive field properties of simple and complex cells in cat striate cortex , 1976, Vision Research.
[92] L. Maffei,et al. Monocular deprivation in kittens impairs the spatial resolution of geniculate neurones , 1976, Nature.
[93] P. D. Spear,et al. Effects of visual deprivation and alterations in binocular competition on responses of striate cortex neurons in the cat , 1976, The Journal of comparative neurology.
[94] R. Shapley,et al. Quantitative analysis of retinal ganglion cell classifications. , 1976, The Journal of physiology.
[95] T. Powell,et al. Postnatal development of the synaptic organisation of the lateral geniculate nucleus in the kitten with unilateral eyelid closure , 1976, Nature.
[96] J. Stone,et al. Properties of ganglion cells in the visual streak of the cat's retina , 1976, The Journal of comparative neurology.
[97] C. Gilbert,et al. Laminar patterns of geniculocortical projection in the cat , 1976, Brain Research.
[98] E. Murphy,et al. Alterations in receptive field properties of superior colliculus cells produced by visual cortex ablation in infant and adult cats , 1976, The Journal of comparative neurology.
[99] W. Singer,et al. Receptive-field properties and neuronal connectivity in striate and parastriate cortex of contour-deprived cats. , 1976, Journal of neurophysiology.
[100] P. D. Spear,et al. Postcritical-period reversal of effects of monocular deprivation on striate cortex cells in the cat. , 1976, Journal of neurophysiology.
[101] S. Sherman,et al. Receptive-field characteristics of neurons in cat striate cortex: Changes with visual field eccentricity. , 1976, Journal of neurophysiology.
[102] J. L. Conway,et al. Bicuculline reversal of deprivation amblyopia in the cat , 1976, Nature.
[103] B E Stein,et al. Relationship between visual and tactile representations in cat superior colliculus. , 1976, Journal of neurophysiology.
[104] G L Gerstein,et al. Spatiotemporal organization of cat lateral geniculate receptive fields. , 1976, Journal of neurophysiology.
[105] M. Imbert,et al. Visual cortical cells: their developmental properties in normal and dark reared kittens. , 1976, The Journal of physiology.
[106] W. Richards,et al. Development of myelination in optic tract of the cat , 1976, The Journal of comparative neurology.
[107] R. W. Guillery,et al. Evidence that binocular competition affects the postnatal development of Y-cells in the cat's lateral geniculate nucleus , 1975, Brain Research.
[108] P. D. Spear,et al. Receptive-field characteristics of single neurons in lateral suprasylvian visual area of the cat. , 1975, Journal of neurophysiology.
[109] Ann M. Graybiel,et al. Anatomical organization of retinotectal afferents in the cat: An autodiographic study , 1975, Brain Research.
[110] W. Singer,et al. Organization of cat striate cortex: a correlation of receptive-field properties with afferent and efferent connections. , 1975, Journal of neurophysiology.
[111] ROBERT SHAPLEY,et al. Visual spatial summation in two classes of geniculate cells , 1975, Nature.
[112] B. Dreher,et al. Visual receptive-field properties of cells in area 18 of cat's cerebral cortex before and after acute lesions in area 17. , 1975, Journal of neurophysiology.
[113] G. Orban,et al. Unit responses to moving stimuli in area 18 of the cat , 1975, Brain Research.
[114] K. Albus. Predominance of monocularly driven cells in the projection area of the central visual field in cat's striate cortex , 1975, Brain Research.
[115] M. Jeannerod,et al. Superior colliculus: environmental influences on the development of directional responses in the kitten , 1975, Brain Research.
[116] H. Wässle,et al. The distribution of the alpha type of ganglion cells in the cat's retina , 1975, The Journal of comparative neurology.
[117] H. H. Magalha˜es-Castro,et al. Identification of corticotectal cells of the visual cortex of cats by means of horseradish peroxidase , 1975, Brain Research.
[118] L. Palmer,et al. An autoradiographic study of the projections of the dorsal lateral geniculate nucleus and the posterior nucleus in the cat. , 1974, Brain research.
[119] W. Levick,et al. Selectivity of microelectrodes in recordings from cat retinal ganglion cells. , 1974, Journal of neurophysiology.
[120] R. Guillery,et al. Behavioral, electrophysiological and morphological studies of binocular competition in the development of the geniculo–corticalpathways of cats , 1974, The Journal of comparative neurology.
[121] P. O. Bishop,et al. Orientation specificity of cells in cat striate cortex. , 1974, Journal of neurophysiology.
[122] D. Rose. Proceedings: The hypercomplex cell classification in the cat's striate cortex. , 1974, The Journal of physiology.
[123] R. Maciewicz,et al. Afferents to the lateral suprasylvian gyrus of the cat traced with horseradish peroxidase. , 1974, Brain research.
[124] P. O. Bishop,et al. Orientation, axis and direction as stimulus parameters for striate cells. , 1974, Vision research.
[125] T. L. Hickey,et al. An autoradiographic study of retinogeniculate pathways in the cat and the fox , 1974, The Journal of comparative neurology.
[126] B. Boycott,et al. The morphological types of ganglion cells of the domestic cat's retina , 1974, The Journal of physiology.
[127] T T Norton,et al. Receptive-field properties of superior colliculus cells and development of visual behavior in kittens. , 1974, Journal of neurophysiology.
[128] J. Stone,et al. Properties of cat retinal ganglion cells: a comparison of W-cells with X- and Y-cells. , 1974, Journal of neurophysiology.
[129] B. Cragg,et al. Development of the extrinsic connections of the visual cortex in the cat , 1974, The Journal of comparative neurology.
[130] K. Shoumura. An attempt to relate the origin and distribution of commissural fibers to the presence of large and medium pyramids in layer III in the cat's visual cortex. , 1974, Brain research.
[131] J. Pettigrew,et al. The effect of visual experience on the development of stimulus specificity by kitten cortical neurones , 1974, The Journal of physiology.
[132] C. Blakemore,et al. Reversal of the physiological effects of monocular deprivation in kittens: further evidence for a sensitive period , 1974, The Journal of physiology.
[133] M. Takahashi,et al. Distribution of binocular inhibitory interaction in the lateral geniculate nucleus of the cat. , 1973, The Tohoku journal of experimental medicine.
[134] J. Stone,et al. Sampling properties of microelectrodes assessed in the cat's retina. , 1973, Journal of neurophysiology.
[135] K. Niimi,et al. Cortical projections of the pulvinar nuclear group of the thalamus in the cat. , 1973, Brain, behavior and evolution.
[136] B E Stein,et al. Determinants of response latency in neurons of superior colliculus in kittens. , 1973, Journal of neurophysiology.
[137] B E Stein,et al. Sequence of changes in properties of neurons of superior colliculus of the kitten during maturation. , 1973, Journal of neurophysiology.
[138] J. Stone,et al. Projection of X- and Y-cells of the cat's lateral geniculate nucleus to areas 17 and 18 of visual cortex. , 1973, Journal of neurophysiology.
[139] R. Guillery,et al. The effect of lid suture upon the growth of cells in the dorsal lateral geniculate nucleus of kittens , 1973, The Journal of comparative neurology.
[140] G. Stent. A physiological mechanism for Hebb's postulate of learning. , 1973, Proceedings of the National Academy of Sciences of the United States of America.
[141] B. Gordon,et al. Receptive fields in deep layers of cat superior colliculus. , 1973, Journal of neurophysiology.
[142] W Singer,et al. Inhibitory interaction between X and Y units in the cat lateral geniculate nucleus. , 1973, Brain research.
[143] R. Moore,et al. Retinohypothalamic projection in mammals: a comparative study. , 1973, Brain research.
[144] B. Stein,et al. A parametric study of movement detection properties of neurons in the cat's superior colliculus. , 1972, Brain research.
[145] A. Graybiel. Some ascending connections of the pulvinar and nucleus lateralis posterior of the thalamus in the cat. , 1972, Brain research.
[146] J. Stone,et al. Very slow-conducting ganglion cells in the cat's retina: a major, new functional type? , 1972, Brain research.
[147] K. Shoumura. Patterns of fiber degeneration in the lateral wall of the suprasylvian gyrus (Clare-Bishop area) following lesions in the visual cortex in cats. , 1972, Brain research.
[148] M. Cynader,et al. Comparison of receptive‐field organization of the superior colliculus in Siamese and normal cats , 1972, The Journal of physiology.
[149] J. Stone,et al. Loss of a specific cell type from dorsal lateral geniculate nucleus in visually deprived cats. , 1972, Journal of neurophysiology.
[150] A. Graybiel. Some fiber pathways related to the posterior thalamic region in the cat. , 1972, Brain, behavior and evolution.
[151] D. Purpura,et al. Laminar distribution of geniculo-cortical afferents in visual cortex of the postnatal kitten. , 1972, Brain research.
[152] S. Sherman. Visual development in cats. , 1972, Investigative ophthalmology.
[153] J. Stone. Morphology and physiology of the geniculocortical synapse in the cat: the question of parallel input to the striate cortex. , 1972, Investigative ophthalmology.
[154] B. Dreher. Hypercomplex cells in the cat's striate cortex. , 1972, Investigative ophthalmology.
[155] J. Vesper,et al. Spatial organization of normal and visually deprived units in the lateral geniculate nucleus of the cat. , 1972, Vision research.
[156] S. Sherman,et al. Binocular interaction on cells of the dorsal lateral geniculate nucleus of visually deprived cats. , 1972, Brain research.
[157] R. Guillery. Binocular competition in the control of geniculate cell growth , 1972, The Journal of comparative neurology.
[158] L. Palmer,et al. Visual receptive field properties of cells of the superior colliculus after cortical lesions in the cat. , 1971, Experimental neurology.
[159] T. Powell,et al. An experimental study of the termination of the lateral geniculo–cortical pathway in the cat and monkey , 1971, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[160] K. Sanderson,et al. The projection of the visual field to the lateral geniculate and medial interlaminar nuclei in the cat , 1971, The Journal of comparative neurology.
[161] J. Dowling,et al. Organization of vertebrate retinas. , 1970, Investigative ophthalmology.
[162] R W Guillery,et al. The differential effects of unilateral lid closure upon the monocular and binocular segments of the dorsal lateral geniculate nucleus in the cat , 1970, The Journal of comparative neurology.
[163] H. Ralston,et al. Laminated cytoplasmic bodies and annulate lamellae in the cat ventrobasal and posterior thalamus , 1970 .
[164] P. O. Bishop,et al. Inhibitory and sub-liminal excitatory receptive fields of simple units in cat striate cortex. , 1969, Vision research.
[165] M. Wright. Visual Receptive Fields of Cells in a Cortical Area remote from the Striate Cortex in the Cat , 1969, Nature.
[166] L. Kruger,et al. Cytoplasmic laminar bodies in the striate cortex. , 1969, Journal of ultrastructure research.
[167] P. Marchiafava,et al. Unit responses to visual stimuli in the superior colliculus of the unanesthetized, mid-pontine cat. , 1968, Archives italiennes de biologie.
[168] K. Barron,et al. Ultrastructural and histochemical analysis of cytoplasmic laminar bodies in lateral geniculate neurons of adult cat. , 1967, American Journal of Anatomy.
[169] C. Enroth-Cugell,et al. The contrast sensitivity of retinal ganglion cells of the cat , 1966, The Journal of physiology.
[170] R W Guillery,et al. A study of Golgi preparations from the dorsal lateral geniculate nucleus of the adult cat , 1966, The Journal of comparative neurology.
[171] D. Duncan,et al. Multilaminated bodies and other unusual configurations of endoplasmic reticulum in the cerebellum of the cat. An electron microscopic study. , 1966, Journal of ultrastructure research.
[172] J. Sprague,et al. The projection of optic fibers to the visual centers in the cat , 1966, The Journal of comparative neurology.
[173] D. Hubel,et al. Comparison of the effects of unilateral and bilateral eye closure on cortical unit responses in kittens. , 1965, Journal of neurophysiology.
[174] R MORALES,et al. A DISTINCTIVE LAMINATED CYTOPLASMIC BODY IN THE LATERAL GENICULATE BODY NEURONS OF THE CAT. , 1964, Journal of ultrastructure research.
[175] D. Hubel,et al. EFFECTS OF VISUAL DEPRIVATION ON MORPHOLOGY AND PHYSIOLOGY OF CELLS IN THE CATS LATERAL GENICULATE BODY. , 1963, Journal of neurophysiology.
[176] R. King,et al. Fiber projections from the nucleus caudalis of the spinal trigeminal nucleus , 1963, The Journal of comparative neurology.
[177] R. Moore,et al. Ascending projections of the inferior colliculus in the cat , 1963 .
[178] J. Altman. Some fiber projections to the superior colliculus in the cat , 1962 .
[179] A. Riesen,et al. Electroretinogram of the Visually Deprived Cat , 1961, Science.
[180] M. Carpenter,et al. Fiber projections of the superior colliculus in the cat , 1961, The Journal of comparative neurology.
[181] V. Mountcastle,et al. Some aspects of the functional organization of the cortex of the postcentral gyrus of the monkey: a correlation of findings obtained in a single unit analysis with cytoarchitecture. , 1959, Bulletin of the Johns Hopkins Hospital.
[182] V. Mountcastle. Modality and topographic properties of single neurons of cat's somatic sensory cortex. , 1957, Journal of neurophysiology.
[183] D. M. Rioch,et al. Studies on the diencephalon of carnivora part I. The nuclear configuration of the thalamus, epithalamus, and hypothalamus of the dog and cat , 1929 .
[184] S. Murray Sherman,et al. PARALLEL PATHWAYS IN THE CAT'S GENICULOCORTICAL SYSTEM: W-, X-, AND Y-CELLS , 1982 .
[185] R. Shapley,et al. Spatial tuning of cells in and around lateral geniculate nucleus of the cat: X and Y relay cells and perigeniculate interneurons. , 1981, Journal of neurophysiology.
[186] H. Spekreijse,et al. Visual Pathways , 1981, Documenta Ophthalmologica Proceedings Series.
[187] T. L. Hickey. Development of the dorsal lateral geniculate nucleus in normal and visually deprived cats , 1980, The Journal of comparative neurology.
[188] Anne C. Rusoff,et al. Development of Ganglion Cells in the Retina of the Cat , 1979 .
[189] A. B. Bonds. Development of Orientation Tuning in the Visual Cortex of Kittens , 1979 .
[190] J. Bullier,et al. X and Y relay cells in cat lateral geniculate nucleus: quantitative analysis of receptive-field properties and classification. , 1979, Journal of neurophysiology.
[191] J Bullier,et al. Comparison of receptive-field properties of X and Y ganglion cells with X and Y lateral geniculate cells in the cat. , 1979, Journal of neurophysiology.
[192] P. D. Spear,et al. Effects of superior colliculus removal on receptive-field properties of neurons in lateral suprasylvian visual area of the cat. , 1979, Journal of neurophysiology.
[193] P. D. Spear,et al. Effects of visual cortex removal on receptive-field properties of neurons in lateral suprasylvian visual area of the cat. , 1979, Journal of neurophysiology.
[194] A J Sefton,et al. Properties of neurons in cat's dorsal lateral geniculate nucleus: A comparison between medial interlaminar and laminated parts of the nucleus , 1979, The Journal of comparative neurology.
[195] F E Bloom,et al. Central catecholamine neuron systems: anatomy and physiology of the norepinephrine and epinephrine systems. , 1979, Annual review of neuroscience.
[196] R. C. Van Sluyters. Reversal of the physiological effects of brief periods of monocular deprivation in the kitten. , 1978, The Journal of physiology.
[197] A. Pantle,et al. Physiological Basis of Motion Perception , 1978 .
[198] B E Stein,et al. Nonequivalent visual, auditory, and somatic corticotectal influences in cat. , 1978, Journal of neurophysiology.
[199] H Sherk,et al. Area 18 cell responses in cat during reversible inactivation of area 17. , 1978, Journal of neurophysiology.
[200] Helmut V. B. Hirsch,et al. Functional Modification of the Developing Visual System , 1978 .
[201] M. Dubin,et al. Development of receptive-field properties of retinal ganglion cells in kittens. , 1977, Journal of neurophysiology.
[202] M. Stryker,et al. Quantitative study of cortical orientation selectivity in visually inexperienced kitten. , 1976, Journal of neurophysiology.
[203] A. Michalski,et al. Clare-Bishop area in the cat: location and retinotopical projection. , 1975, Acta neurobiologiae experimentalis.
[204] B. V. Updyke,et al. The patterns of projection of cortical areas 17, 18, and 19 onto the laminae of the dorsal lateral geniculate nucleus in the cat. , 1975, The Journal of comparative neurology.
[205] K. Niimi,et al. The dorsal thalamus of the cat and comparison with monkey and man. , 1973, Journal fur Hirnforschung.
[206] G. Rizzolatti,et al. The Role of the Superior Colliculus and Pretectum in Vision and Visually Guided Behavior , 1973 .
[207] A. Graybiel. Some extrageniculate visual pathways in the cat. , 1972, Investigative ophthalmology.
[208] L Maffei,et al. Retinogeniculate convergence and analysis of contrast. , 1972, Journal of neurophysiology.
[209] Dr. C. J. Heath,et al. The Anatomical Organization of the Suprasylvian Gyrus of the Cat , 1971, Advances in Anatomy, Embryology and Cell Biology.
[210] P. Sterling,et al. Function of the projection from the visual cortex to the superior colliculus. , 1970, Brain, behavior and evolution.
[211] P Sterling,et al. Visual receptive fields in the superior colliculus of the cat. , 1969, Journal of neurophysiology.
[212] D. Sholl. The organization of the visual cortex in the cat. , 1955, Journal of anatomy.
[213] S. W. Kuffler. Discharge patterns and functional organization of mammalian retina. , 1953, Journal of neurophysiology.
[214] H. W. Ades,et al. CORTICAL RESPONSE OF THE ANESTHETIZED CAT TO GROSS PHOTIC AND ELECTRICAL AFFERENT STIMULATION , 1943 .