Functional mapping of cortical areas with optical imaging
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[1] K. Martin,et al. Excitatory synaptic inputs to spiny stellate cells in cat visual cortex , 1996, Nature.
[2] D. Ferster,et al. Orientation selectivity of thalamic input to simple cells of cat visual cortex , 1996, Nature.
[3] Amiram Grinvald,et al. Iso-orientation domains in cat visual cortex are arranged in pinwheel-like patterns , 1991, Nature.
[4] G. Paxinos,et al. The Rat Brain in Stereotaxic Coordinates , 1983 .
[5] Prof. Dr. Dr. Valentino Braitenberg,et al. Cortex: Statistics and Geometry of Neuronal Connectivity , 1998, Springer Berlin Heidelberg.
[6] J. Lübke,et al. Columnar Organization of Dendrites and Axons of Single and Synaptically Coupled Excitatory Spiny Neurons in Layer 4 of the Rat Barrel Cortex , 2000, The Journal of Neuroscience.
[7] R. Yuste,et al. Neuronal domains in developing neocortex. , 1992, Science.
[8] E. White,et al. Quantification of thalamocortical synapses with spiny stellate neurons in layer IV of mouse somatosensory cortex , 1986, The Journal of comparative neurology.
[9] Sooyoung Chung,et al. Functional imaging with cellular resolution reveals precise micro-architecture in visual cortex , 2005, Nature.
[10] A Grinvald,et al. Optical imaging reveals the functional architecture of neurons processing shape and motion in owl monkey area MT , 1994, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[11] Kenneth D Miller,et al. Processing in layer 4 of the neocortical circuit: new insights from visual and somatosensory cortex , 2001, Current Opinion in Neurobiology.
[12] K. Holthoff,et al. Cell swelling and ion redistribution assessed with intrinsic optical signals. , 2001, Anais da Academia Brasileira de Ciencias.
[13] A. Peters,et al. Numerical relationships between geniculocortical afferents and pyramidal cell modules in cat primary visual cortex. , 1993, Cerebral cortex.
[14] M. Bear,et al. A current source density analysis of evoked responses in slices of adult rat visual cortex: implications for the regulation of long-term potentiation. , 1996, Cerebral cortex.
[15] J. C. Anderson,et al. Polyneuronal innervation of spiny stellate neurons in cat visual cortex , 1994, The Journal of comparative neurology.
[16] B. MacVicar,et al. Imaging cell volume changes and neuronal excitation in the hippocampal slice , 1994, Neuroscience.
[17] C. Stosiek,et al. In vivo two-photon calcium imaging of neuronal networks , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[18] D. Hubel,et al. Shape and arrangement of columns in cat's striate cortex , 1963, The Journal of physiology.
[19] C. Koch,et al. Recurrent excitation in neocortical circuits , 1995, Science.
[20] B. Sakmann,et al. ‐Dynamic representation of whisker deflection by synaptic potentials in spiny stellate and pyramidal cells in the barrels and septa of layer 4 rat somatosensory cortex , 2002, The Journal of physiology.
[21] D. Kleinfeld,et al. Functional study of the rat cortical microcircuitry with voltage-sensitive dye imaging of neocortical slices. , 1997, Cerebral cortex.
[22] A. Burkhalter,et al. Intrinsic connections of rat primary visual cortex: Laminar organization of axonal projections , 1989, The Journal of comparative neurology.
[23] B. Connors,et al. Efficacy of Thalamocortical and Intracortical Synaptic Connections Quanta, Innervation, and Reliability , 1999, Neuron.
[24] K. Holthoff,et al. Intrinsic optical signals in vitro: a tool to measure alterations in extracellular space with two-dimensional resolution , 1998, Brain Research Bulletin.
[25] A. Burkhalter,et al. Organization of local axon collaterals of efferent projection neurons in rat visual cortex , 1990, The Journal of comparative neurology.
[26] 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.
[27] Peter G Aitken,et al. Two different mechanisms underlie reversible, intrinsic optical signals in rat hippocampal slices. , 2002, Journal of neurophysiology.
[28] U. Eysel,et al. Orientation-specific relationship between populations of excitatory and inhibitory lateral connections in the visual cortex of the cat. , 1997, Cerebral cortex.
[29] The spread of excitation in neocortical columns visualized with infrared-darkfield videomicroscopy. , 1996, Neuroreport.
[30] J. Bakin,et al. Suprathreshold auditory cortex activation visualized by intrinsic signal optical imaging. , 1996, Cerebral cortex.
[31] B. Sakmann,et al. Cortex Is Driven by Weak but Synchronously Active Thalamocortical Synapses , 2006, Science.
[32] Hans-Ulrich Dodt,et al. Changes in intrinsic optical signal of rat neocortical slices following afferent stimulation , 1994, Neuroscience Letters.
[33] B. MacVicar,et al. Imaging of synaptically evoked intrinsic optical signals in hippocampal slices , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[34] K. Holthoff,et al. Intrinsic optical signals in rat neocortical slices measured with near- infrared dark-field microscopy reveal changes in extracellular space , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[35] G. Paxinos. The Rat nervous system , 1985 .
[36] 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.