Cortical network dynamics during visually-guided motor behavior : Setup development and Preliminary analyses

Dissertation, RWTH Aachen University, 2018; Aachen, 1 Online-Ressource (150 Seiten) : Illustrationen (2018). = Dissertation, RWTH Aachen University, 2018

[1]  Bijan Pesaran,et al.  Reaction Time Correlations during Eye–Hand Coordination: Behavior and Modeling , 2011, The Journal of Neuroscience.

[2]  J. Vercher,et al.  Target and hand position information in the online control of goal-directed arm movements , 2003, Experimental Brain Research.

[3]  J. Donoghue,et al.  Gaze Direction Modulates Finger Movement Activation Patterns in Human Cerebral Cortex , 1999, The Journal of Neuroscience.

[4]  Driss Boussaoud,et al.  Effects of gaze on apparent visual responses of frontal cortex neurons , 2004, Experimental Brain Research.

[5]  A. Pouget,et al.  Correlations and Neuronal Population Information. , 2016, Annual review of neuroscience.

[6]  Adrian G Bondy,et al.  Saccadic modulation of stimulus processing in primary visual cortex , 2015, Nature Communications.

[7]  R. Johansson,et al.  Eye–hand coordination in a sequential target contact task , 2009, Experimental Brain Research.

[8]  Morten Overgaard,et al.  Blindsight: recent and historical controversies on the blindness of blindsight. , 2012, Wiley interdisciplinary reviews. Cognitive science.

[9]  H. Neumann,et al.  The Role of Attention in Figure-Ground Segregation in Areas V1 and V4 of the Visual Cortex , 2012, Neuron.

[10]  J D Crawford,et al.  Spatial transformations for eye-hand coordination. , 2004, Journal of neurophysiology.

[11]  Howard Poizner,et al.  Unconstrained reaching modulates eye–hand coupling , 2013, Experimental Brain Research.

[12]  A. Riehle,et al.  Mapping the spatio-temporal structure of motor cortical LFP and spiking activities during reach-to-grasp movements , 2013, Front. Neural Circuits.

[13]  C. Connor,et al.  Covert attention suppresses neuronal responses in area 7a of the posterior parietal cortex. , 1994, Journal of neurophysiology.

[14]  C. Galletti,et al.  The cortical connections of area V6: an occipito‐parietal network processing visual information , 2001, The European journal of neuroscience.

[15]  D. Hubel,et al.  Orientation columns in macaque monkey visual cortex demonstrated by the 2-deoxyglucose autoradiographic technique , 1977, Nature.

[16]  Kevan A C Martin,et al.  The Synaptic Connections between Cortical Areas V1 and V2 in Macaque Monkey , 2009, The Journal of Neuroscience.

[17]  Joshua A. Granek,et al.  Extensive video-game experience alters cortical networks for complex visuomotor transformations , 2010, Cortex.

[18]  R. Reid,et al.  The koniocellular pathway in primate vision. , 2000, Annual review of neuroscience.

[19]  John Gardner,et al.  A history of deep brain stimulation: Technological innovation and the role of clinical assessment tools , 2013, Social Studies of Science.

[20]  Joseph S. Gati,et al.  Eye Position Signal Modulates a Human Parietal Pointing Region during Memory-Guided Movements , 2000, The Journal of Neuroscience.

[21]  C. Galletti,et al.  Functional Demarcation of a Border Between Areas V6 and V6A in the Superior Parietal Gyrus of the Macaque Monkey , 1996, The European journal of neuroscience.

[22]  J. B. Levitt,et al.  Functional properties of neurons in macaque area V3. , 1997, Journal of neurophysiology.

[23]  John M. Allman,et al.  The Effect of Gaze Angle and Fixation Distance on the Responses of Neurons in V1, V2, and V4 , 2002, Neuron.

[24]  H. Kennedy,et al.  Visual Areas Exert Feedforward and Feedback Influences through Distinct Frequency Channels , 2014, Neuron.

[25]  Alan Kennedy,et al.  Book Review: Eye Tracking: A Comprehensive Guide to Methods and Measures , 2016, Quarterly journal of experimental psychology.

[26]  L. Jakobson,et al.  A neurological dissociation between perceiving objects and grasping them , 1991, Nature.

[27]  K. Grieve,et al.  The primate pulvinar nuclei: vision and action , 2000, Trends in Neurosciences.

[28]  A. Grinvald,et al.  Dynamics of Ongoing Activity: Explanation of the Large Variability in Evoked Cortical Responses , 1996, Science.

[29]  H. Bekkering,et al.  Gaze anchoring to a pointing target is present during the entire pointing movement and is driven by a non-visual signal. , 2001, Journal of neurophysiology.

[30]  R Caminiti,et al.  Eye-hand coordination during reaching. II. An analysis of the relationships between visuomanual signals in parietal cortex and parieto-frontal association projections. , 2001, Cerebral cortex.

[31]  L. Chelazzi,et al.  Neurons in Area V4 of the Macaque Translate Attended Visual Features into Behaviorally Relevant Categories , 2007, Neuron.

[32]  Richard P. Heitz,et al.  Cooperation and Competition among Frontal Eye Field Neurons during Visual Target Selection , 2010, The Journal of Neuroscience.

[33]  Joo-Hyun Song,et al.  Roles of narrow- and broad-spiking dorsal premotor area neurons in reach target selection and movement production. , 2010, Journal of neurophysiology.

[34]  S. Schaal The Computational Neurobiology of Reaching and Pointing — A Foundation for Motor Learning by Reza Shadmehr and Steven P. Wise , 2007 .

[35]  Timothy D. Griffiths,et al.  Individually customisable non-invasive head immobilisation system for non-human primates with an option for voluntary engagement , 2016, Journal of Neuroscience Methods.

[36]  Nicolelis Mal Multielectrode Recording in Behaving Monkeys -- Methods for Neural Ensemble Recordings , 2008 .

[37]  T. L. Harrington,et al.  Neural mechanisms of space vision in the parietal association cortex of the monkey , 1985, Vision Research.

[38]  Andrew B Schwartz,et al.  Eye-hand coupling during closed-loop drawing: evidence of shared motor planning? , 2003, Human movement science.

[39]  G. Rizzolatti,et al.  Reorienting attention across the horizontal and vertical meridians: Evidence in favor of a premotor theory of attention , 1987, Neuropsychologia.

[40]  S P Wise,et al.  The premotor cortex and nonstandard sensorimotor mapping. , 1996, Canadian journal of physiology and pharmacology.

[41]  M. Hayhoe,et al.  The coordination of eye, head, and hand movements in a natural task , 2001, Experimental Brain Research.

[42]  A. Cowey,et al.  Striate cortex lesions and visual acuity of the rhesus monkey. , 1963, Journal of comparative and physiological psychology.

[43]  R. McPeek,et al.  The eye dominates in guiding attention during simultaneous eye and hand movements. , 2011, Journal of vision.

[44]  C. Casanova,et al.  Chapter 5 Higher-order motion processing in the pulvinar , 2001 .

[45]  Aiden E. G. F. Arnold,et al.  Intraparietal sulcus activity and functional connectivity supporting spatial working memory manipulation. , 2015, Cerebral cortex.

[46]  Stephen H. Scott,et al.  Apparatus for measuring and perturbing shoulder and elbow joint positions and torques during reaching , 1999, Journal of Neuroscience Methods.

[47]  M. Jeannerod,et al.  The coordination of eye, head, and arm movements during reaching at a single visual target , 2004, Experimental Brain Research.

[48]  C. Galletti,et al.  Brain location and visual topography of cortical area V6A in the macaque monkey , 1999, The European journal of neuroscience.

[49]  A. Butler,et al.  Chordate evolution and the origin of craniates: An old brain in a new head , 2000, The Anatomical record.

[50]  Eun Jung Hwang,et al.  Spatial and Temporal Eye–Hand Coordination Relies on the Parietal Reach Region , 2014, The Journal of Neuroscience.

[51]  R. Caminiti,et al.  Cortical networks for visual reaching , 2004, Experimental Brain Research.

[52]  Martin I. Sereno,et al.  The Human Homologue of Macaque Area V6A , 2012 .

[53]  A. B. Mayer,et al.  Visuomotor transformations: early cortical mechanisms of reaching , 1998, Current Opinion in Neurobiology.

[54]  Lacquaniti,et al.  Visuo‐motor transformations for arm reaching , 1998, The European journal of neuroscience.

[55]  A. Schwartz,et al.  Recording from the same neurons chronically in motor cortex. , 2012, Journal of neurophysiology.

[56]  K. Djupsund,et al.  Flexible polyimide microelectrode array for in vivo recordings and current source density analysis. , 2007, Biosensors & bioelectronics.

[57]  R. Andersen,et al.  Coding of intention in the posterior parietal cortex , 1997, Nature.

[58]  S. Zeki,et al.  Response properties and receptive fields of cells in an anatomically defined region of the superior temporal sulcus in the monkey. , 1971, Brain research.

[59]  B. Fischer,et al.  Reaction times of the eye and the hand of the monkey in a visual reach task , 1985, Neuroscience Letters.

[60]  Sonja Grün,et al.  Saccade-Related Modulations of Neuronal Excitability Support Synchrony of Visually Elicited Spikes , 2011, Cerebral cortex.

[61]  M. Goldberg,et al.  Ventral intraparietal area of the macaque: anatomic location and visual response properties. , 1993, Journal of neurophysiology.

[62]  S. Scott,et al.  Cortical control of reaching movements , 1997, Current Opinion in Neurobiology.

[63]  Daeyeol Lee,et al.  Neural Noise and Movement-Related Codes in the Macaque Supplementary Motor Area , 2003, The Journal of Neuroscience.

[64]  R. Andersen,et al.  The influence of the angle of gaze upon the excitability of the light- sensitive neurons of the posterior parietal cortex , 1983, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[65]  Bradley Greger,et al.  Acute human brain responses to intracortical microelectrode arrays: challenges and future prospects , 2014, Front. Neuroeng..

[66]  Flavie Torrecillos,et al.  Distinct Modulations in Sensorimotor Postmovement and Foreperiod β-Band Activities Related to Error Salience Processing and Sensorimotor Adaptation , 2015, The Journal of Neuroscience.

[67]  Michael I. Coates,et al.  A lamprey from the Devonian period of South Africa , 2006, Nature.

[68]  C. Kennard,et al.  The role of the pre-supplementary motor area in the control of action , 2007, NeuroImage.

[69]  G. Fink,et al.  REVIEW: The functional organization of the intraparietal sulcus in humans and monkeys , 2005, Journal of anatomy.

[70]  Leah Scott,et al.  A non‐invasive method for studying an index of pupil diameter and visual performance in the rhesus monkey , 2006, Journal of medical primatology.

[71]  R. Caminiti,et al.  Cortical mechanisms for online control of hand movement trajectory: the role of the posterior parietal cortex. , 2009, Cerebral cortex.

[72]  Stephanie Westendorff,et al.  Implementation of Spatial Transformation Rules for Goal-Directed Reaching via Gain Modulation in Monkey Parietal and Premotor Cortex , 2009, The Journal of Neuroscience.

[73]  Jude F. Mitchell,et al.  Spatial Attention Decorrelates Intrinsic Activity Fluctuations in Macaque Area V4 , 2009, Neuron.

[74]  J. Kalaska,et al.  Simultaneous encoding of multiple potential reach directions in dorsal premotor cortex. , 2002, Journal of neurophysiology.

[75]  Jon H. Kaas,et al.  Pulvinar contributions to the dorsal and ventral streams of visual processing in primates , 2007, Brain Research Reviews.

[76]  A. Dale,et al.  Functional Analysis of V3A and Related Areas in Human Visual Cortex , 1997, The Journal of Neuroscience.

[77]  Tai Sing Lee,et al.  Cooperative and Competitive Interactions Facilitate Stereo Computations in Macaque Primary Visual Cortex , 2009, The Journal of Neuroscience.

[78]  M. Carandini,et al.  Mapping of stimulus energy in primary visual cortex. , 2005, Journal of neurophysiology.

[79]  E. J. Tehovnik,et al.  Eye Movements Modulate Visual Receptive Fields of V4 Neurons , 2001, Neuron.

[80]  Philippe A. Chouinard,et al.  The Primary Motor and Premotor Areas of the Human Cerebral Cortex , 2006, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[81]  Parashkev Nachev,et al.  Role of the human supplementary eye field in the control of saccadic eye movements , 2007, Neuropsychologia.

[82]  M. Jeannerod Mental imagery in the motor context , 1995, Neuropsychologia.

[83]  J. Donoghue,et al.  Dynamic organization of primary motor cortex output to target muscles in adult rats II. Rapid reorganization following motor nerve lesions , 2004, Experimental Brain Research.

[84]  C. Trevarthen,et al.  Two mechanisms of vision in primates , 1968, Psychologische Forschung.

[85]  K. Amunts,et al.  The importance of seeing it coming: a functional magnetic resonance imaging study of motion-in-depth towards the human observer , 2002, Neuroscience.

[86]  Robert Sessions Woodworth,et al.  THE ACCURACY OF VOLUNTARY MOVEMENT , 1899 .

[87]  H. Bekkering,et al.  Ocular gaze is anchored to the target of an ongoing pointing movement. , 2000, Journal of neurophysiology.

[88]  M. Nicolelis,et al.  Reconstructing the Engram: Simultaneous, Multisite, Many Single Neuron Recordings , 1997, Neuron.

[89]  V. Mountcastle,et al.  Posterior parietal association cortex of the monkey: command functions for operations within extrapersonal space. , 1975, Journal of neurophysiology.

[90]  J. Douglas Crawford,et al.  Neural Activity in Superior Parietal Cortex during Rule-based Visual-motor Transformations , 2013, Journal of Cognitive Neuroscience.

[91]  R. Lemon Descending pathways in motor control. , 2008, Annual review of neuroscience.

[92]  A. P. Georgopoulos,et al.  Variability and Correlated Noise in the Discharge of Neurons in Motor and Parietal Areas of the Primate Cortex , 1998, The Journal of Neuroscience.

[93]  H. Bridge,et al.  Adaptive Pulvinar Circuitry Supports Visual Cognition , 2016, Trends in Cognitive Sciences.

[94]  Hansjörg Scherberger,et al.  Predicting Reaction Time from the Neural State Space of the Premotor and Parietal Grasping Network , 2015, The Journal of Neuroscience.

[95]  D. Boussaoud,et al.  Direct visual pathways for reaching movements in the macaque monkey , 1995, Neuroreport.

[96]  M. Davare,et al.  Interactions between dorsal and ventral streams for controlling skilled grasp , 2015, Neuropsychologia.

[97]  田中 啓治 Analysis of Local and Wide-Field Movements in the Superior Temporal Visual Areas of the Macaque Monkey , 1987 .

[98]  M. Goodale Transforming vision into action , 2011, Vision Research.

[99]  F. Mechler,et al.  Independent and Redundant Information in Nearby Cortical Neurons , 2001, Science.

[100]  R. M. Siegel,et al.  Encoding of spatial location by posterior parietal neurons. , 1985, Science.

[101]  Leslie G. Ungerleider,et al.  Controversies about the visual areas located at the anterior border of area V2 in primates , 2015, Visual Neuroscience.

[102]  Kevin A. Brown,et al.  Spatio‐Temporal Patterning in Primary Motor Cortex at Movement Onset , 2016, Cerebral cortex.

[103]  Nikos K Logothetis,et al.  Statistical comparison of spike responses to natural stimuli in monkey area V1 with simulated responses of a detailed laminar network model for a patch of V1. , 2011, Journal of neurophysiology.

[104]  John H. R. Maunsell,et al.  The connections of the middle temporal visual area (MT) and their relationship to a cortical hierarchy in the macaque monkey , 1983, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[105]  Matteo Carandini,et al.  Five key factors determining pairwise correlations in visual cortex , 2015, Journal of neurophysiology.

[106]  C. Gross,et al.  Visuotopic organization and extent of V3 and V4 of the macaque , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[107]  David A. Leopold,et al.  Blindsight depends on the lateral geniculate nucleus , 2010, Nature.

[108]  R. Oostenveld,et al.  A MEMS-based flexible multichannel ECoG-electrode array , 2009, Journal of neural engineering.

[109]  Alexandre Pouget,et al.  Origin of information-limiting noise correlations , 2015, Proceedings of the National Academy of Sciences.

[110]  Justin M. Ericson,et al.  The Effects of Incidentally Learned Temporal and Spatial Predictability on Response Times and Visual Fixations during Target Detection and Discrimination , 2014, PloS one.

[111]  D. L. Adams,et al.  A Precise Retinotopic Map of Primate Striate Cortex Generated from the Representation of Angioscotomas , 2003, The Journal of Neuroscience.

[112]  Miya K. Rand Segment interdependency and gaze anchoring during manual two-segment sequences , 2014, Experimental Brain Research.

[113]  D. Amit,et al.  The eye and the hand: neural mechanisms and network models for oculomanual coordination in parietal cortex. , 2003, Cerebral cortex.

[114]  P. Strick,et al.  Spinal Cord Terminations of the Medial Wall Motor Areas in Macaque Monkeys , 1996, The Journal of Neuroscience.

[115]  Leslie G. Ungerleider,et al.  Cortical connections of visual area MT in the macaque , 1986, The Journal of comparative neurology.

[116]  Leslie G. Ungerleider Two cortical visual systems , 1982 .

[117]  J. Kaas,et al.  The Organization and Evolution of Dorsal Stream Multisensory Motor Pathways in Primates , 2011, Front. Neuroanat..

[118]  G. Magenes,et al.  Eye-head-hand coordination in pointing at visual targets: spatial and temporal analysis , 2004, Experimental Brain Research.

[119]  D. Hubel,et al.  Receptive fields of single neurones in the cat's striate cortex , 1959, The Journal of physiology.

[120]  Sonja Grün,et al.  Handling Metadata in a Neurophysiology Laboratory , 2016, Front. Neuroinform..

[121]  José del R. Millán,et al.  BNCI Horizon 2020: Towards a Roadmap for the BCI Community , 2015 .

[122]  Richard A. Andersen,et al.  Optic Ataxia: From Balint’s Syndrome to the Parietal Reach Region , 2014, Neuron.

[123]  M. Cohen,et al.  Measuring and interpreting neuronal correlations , 2011, Nature Neuroscience.

[124]  Alexander S. Ecker,et al.  Decorrelated Neuronal Firing in Cortical Microcircuits , 2010, Science.

[125]  Lotfi B Merabet,et al.  Visual Topography of Human Intraparietal Sulcus , 2007, The Journal of Neuroscience.

[126]  F. Lacquaniti,et al.  Visual Control of Hand‐reaching Movement: Activity in Parietal Area 7m , 1997, The European journal of neuroscience.

[127]  R. Guillemaud,et al.  A modular 256-channel Micro Electrode Array platform for in vitro and in vivo neural stimulation and recording: BioMEA™ , 2010, 2010 Annual International Conference of the IEEE Engineering in Medicine and Biology.