Do we have independent visual streams for perception and action?

The perception–action model proposes that vision-for-perception and vision-for-action are based on anatomically distinct and functionally independent streams within the visual cortex. This idea can account for diverse experimental findings, and has been hugely influential over the past two decades. The model itself comprises a set of core contrasts between the functional properties of the two visual streams. We critically review the evidence for these contrasts, arguing that each of them has either been refuted or found limited empirical support. We suggest that the perception–action model captures some broad patterns of functional localization, but that the specializations of the two streams are relative, not absolute. The ubiquity and extent of inter-stream interactions suggest that we should reject the idea that the ventral and dorsal streams are functionally independent processing pathways.

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

[2]  B. Bridgeman,et al.  Relation between cognitive and motor-oriented systems of visual position perception. , 1979 .

[3]  D. H. Mellor,et al.  Real time , 1981 .

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

[5]  R. Mansfield,et al.  Analysis of visual behavior , 1982 .

[6]  N. Mai,et al.  Selective disturbance of movement vision after bilateral brain damage. , 1983, Brain : a journal of neurology.

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

[8]  A. Mack,et al.  The dissociation of position and extent in Müller-Lyer figures , 1985, Perception & psychophysics.

[9]  B Gillam,et al.  Size and position are incongruous: Measurements on the Müller-Lyer figure , 1985, Perception & psychophysics.

[10]  L. Weiskrantz Blindsight : a case study and implications , 1986 .

[11]  D. Elliott,et al.  The Influence of Premovement Visual Information on Manual Aiming , 1987, The Quarterly journal of experimental psychology. A, Human experimental psychology.

[12]  L Weiskrantz,et al.  Residual vision in a scotoma. A follow-up study of 'form' discrimination. , 1987, Brain : a journal of neurology.

[13]  M. Perenin,et al.  Optic ataxia: a specific disruption in visuomotor mechanisms. I. Different aspects of the deficit in reaching for objects. , 1988, Brain : a journal of neurology.

[14]  D. Ts'o,et al.  Functional organization of primate visual cortex revealed by high resolution optical imaging. , 1990, Science.

[15]  William T. Newsome,et al.  Cortical microstimulation influences perceptual judgements of motion direction , 1990, Nature.

[16]  William T. Newsome,et al.  Cortical microstimulation influences perceptual judgements of motion direction , 1990, Nature.

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

[18]  T. R. Jordan,et al.  Perception and action in 'visual form agnosia'. , 1991, Brain : a journal of neurology.

[19]  M. Goodale,et al.  Separate visual pathways for perception and action , 1992, Trends in Neurosciences.

[20]  V. Hömberg,et al.  Cerebral visual motion blindness: transitory akinetopsia induced by transcranial magnetic stimulation of human area V5 , 1992, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[21]  L. Jakobson,et al.  Differences in the visual control of pantomimed and natural grasping movements , 1994, Neuropsychologia.

[22]  G. Rizzolatti,et al.  Space and selective attention , 1994 .

[23]  D. Perrett,et al.  The Nature and Limits of Orientation and Pattern Processing Supporting Visuomotor Control in a Visual Form Agnosic , 1994, Journal of Cognitive Neuroscience.

[24]  A. Milner,et al.  Cerebral correlates of visual awareness , 1995, Neuropsychologia.

[25]  M. Goodale,et al.  The visual brain in action , 1995 .

[26]  M. Landy,et al.  Measurement and modeling of depth cue combination: in defense of weak fusion , 1995, Vision Research.

[27]  M. Goodale,et al.  Size-contrast illusions deceive the eye but not the hand , 1995, Current Biology.

[28]  A. Dale,et al.  Visual motion aftereffect in human cortical area MT revealed by functional magnetic resonance imaging , 1995, Nature.

[29]  R. B. Post,et al.  Is There Dissociation of Perceptual and Motor Responses to Figural Illusions? , 1996, Perception.

[30]  M. Goodale,et al.  The use of visuomotor cues as a strategy for making perceptual judgments in a patient with visual form agnosia. , 1996 .

[31]  A. Milner,et al.  Visuomotor sensitivity for shape and orientation in a patient with visual form agnosia , 1996, Neuropsychologia.

[32]  Milner Ad,et al.  Copying without perceiving: motor imagery in visual form agnosia. , 1997 .

[33]  A. Milner,et al.  Copying without perceiving: motor imagery in visual form agnosia , 1997, Neuroreport.

[34]  T. Schenk,et al.  Visual motion perception after brain damage: I. Deficits in global motion perception , 1997, Neuropsychologia.

[35]  Laurel J. Buxbaum,et al.  Subtypes of optic ataxia: Reframing the disconnection account , 1997 .

[36]  Hc. Dijkertnan The perception and prehension of objects oriented in the depth plane. I. Effects of visual form agnosia , 1997 .

[37]  H Suzuki,et al.  Human cortical area responding to stimuli in apparent motion , 1997, Neuroreport.

[38]  M. Goodale,et al.  The objects of action and perception , 1998, Cognition.

[39]  A. Milner,et al.  The perception and prehension of objects oriented in the depth plane II. Dissociated orientation functions in normal subjects , 1998, Experimental Brain Research.

[40]  A. Milner Streams and consciousness: visual awareness and the brain , 1998, Trends in Cognitive Sciences.

[41]  Richard A. Andersen,et al.  Separate body- and world-referenced representations of visual space in parietal cortex , 1998, Nature.

[42]  H. Chris Dijkerman,et al.  Grasping Spatial Relationships: Failure to Demonstrate Allocentric Visual Coding in a Patient with Visual Form Agnosia , 1998, Consciousness and Cognition.

[43]  Yves Rossetti,et al.  Implicit Short-Lived Motor Representations of Space in Brain Damaged and Healthy Subjects , 1998, Consciousness and Cognition.

[44]  E. R. Cohen,et al.  Close correlation between activity in brain area MT/V5 and the perception of a visual motion aftereffect , 1998, Current Biology.

[45]  G. Kinsella,et al.  Investigating form and colour perception in blindsight using an interference task , 1998, Neuroreport.

[46]  W. Singer,et al.  The constructive nature of vision: direct evidence from functional magnetic resonance imaging studies of apparent motion and motion imagery , 1998, The European journal of neuroscience.

[47]  Jon H. Kaas,et al.  'What' and 'where' processing in auditory cortex , 1999, Nature Neuroscience.

[48]  H. Chris Dijkerman,et al.  Motion parallax enables depth processing for action in a visual form agnosic when binocular vision is unavailable , 1999, Neuropsychologia.

[49]  M. Goodale,et al.  The effects of delay on the kinematics of grasping , 1999, Experimental Brain Research.

[50]  Mark Mon-Williams,et al.  The Judd illusion: evidence for two visual streams or two experimental conditions? , 1999, Experimental Brain Research.

[51]  F. Pavani,et al.  Are perception and action affected differently by the Titchener circles illusion? , 1999, Experimental Brain Research.

[52]  A. Milner,et al.  A paradoxical improvement of misreaching in optic ataxia: new evidence for two separate neural systems for visual localization , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[53]  J E Cutting,et al.  Comparing effects of the horizontal-vertical illusion on grip scaling and judgment: relative versus absolute, not perception versus action. , 1999, Journal of experimental psychology. Human perception and performance.

[54]  S. Edelman,et al.  Differential Processing of Objects under Various Viewing Conditions in the Human Lateral Occipital Complex , 1999, Neuron.

[55]  R. Meuli,et al.  Auditory agnosia and auditory spatial deficits following left hemispheric lesions: evidence for distinct processing pathways , 2000, Neuropsychologia.

[56]  S. Jackson,et al.  The Ponzo illusion affects grip-force but not grip-aperture scaling during prehension movements. , 2000, Journal of experimental psychology. Human perception and performance.

[57]  D R Proffitt,et al.  Perception-Action Dissociations of a Walkable Müller-Lyer Configuration , 2000, Psychological science.

[58]  M. Mon-Williams,et al.  The size of the visual size cue used for programming manipulative forces during precision grip , 2000, Experimental Brain Research.

[59]  J. Flanagan,et al.  Independence of perceptual and sensorimotor predictions in the size–weight illusion , 2000, Nature Neuroscience.

[60]  M. Fahle,et al.  Grasping Visual Illusions: No Evidence for a Dissociation Between Perception and Action , 2000, Psychological science.

[61]  N Mai,et al.  Can a motion‐blind patient reach for moving objects? , 2000, The European journal of neuroscience.

[62]  Yann Coello,et al.  Determination of target distance in a structured environment: Selection of visual information for action , 2000 .

[63]  N. Kanwisher,et al.  Activation in Human MT/MST by Static Images with Implied Motion , 2000, Journal of Cognitive Neuroscience.

[64]  M. Goodale,et al.  Grasping after a Delay Shifts Size-Scaling from Absolute to Relative Metrics , 2000, Journal of Cognitive Neuroscience.

[65]  R. McIntosh Seeing size and weight , 2000, Trends in Cognitive Sciences.

[66]  V. Franz,et al.  Action does not resist visual illusions , 2001, Trends in Cognitive Sciences.

[67]  Victor A. F. Lamme Blindsight: the role of feedforward and feedback corticocortical connections. , 2001, Acta psychologica.

[68]  A. Milner,et al.  Grasping the past delay can improve visuomotor performance , 2001, Current Biology.

[69]  E A Roy,et al.  The accuracy of reaching movements in brief delay conditions. , 2001, Canadian journal of experimental psychology = Revue canadienne de psychologie experimentale.

[70]  David A. Westwood,et al.  Delayed grasping of a Müller-Lyer figure , 2001, Experimental Brain Research.

[71]  Z Kourtzi,et al.  Representation of Perceived Object Shape by the Human Lateral Occipital Complex , 2001, Science.

[72]  Nicola Bruno,et al.  When does action resist visual illusions? , 2001, Trends in Cognitive Sciences.

[73]  Robert D. McIntosh,et al.  Vertical gaze angle as a distance cue for programming reaching: insights from visual form agnosia II (of III) , 2001, Experimental Brain Research.

[74]  J. Driver,et al.  Perceptual awareness and its loss in unilateral neglect and extinction , 2001, Cognition.

[75]  James R. Tresilian,et al.  Monocular and binocular distance cues: insights from visual form agnosia I (of III) , 2001, Experimental Brain Research.

[76]  D. Carey,et al.  Do action systems resist visual illusions? , 2001, Trends in Cognitive Sciences.

[77]  M. Kubovy,et al.  Auditory and visual objects , 2001, Cognition.

[78]  Geraint Rees,et al.  Neural correlates of consciousness in humans , 2002, Nature Reviews Neuroscience.

[79]  Ravi S. Menon,et al.  Differential Effects of Viewpoint on Object-Driven Activation in Dorsal and Ventral Streams , 2002, Neuron.

[80]  Y. Coello,et al.  Retinal and extra-retinal contribution to position coding , 2002, Behavioural Brain Research.

[81]  Raymond H. Cuijpers,et al.  Illusions in action: consequences of inconsistent processing of spatial attributes , 2002, Experimental Brain Research.

[82]  Scott Glover,et al.  Visual illusions affect planning but not control , 2002, Trends in Cognitive Sciences.

[83]  Timothy J. Andrews,et al.  Activity in the Fusiform Gyrus Predicts Conscious Perception of Rubin's Vase–Face Illusion , 2002, NeuroImage.

[84]  R. Henson,et al.  Multiple levels of visual object constancy revealed by event-related fMRI of repetition priming , 2002, Nature Neuroscience.

[85]  M. Tarr,et al.  Visual Object Recognition , 1996, ISTCS.

[86]  Simon J Watt,et al.  A dissociation of perception and action in normal human observers: the effect of temporal-delay , 2002, Neuropsychologia.

[87]  Y. Rossetti,et al.  Optic ataxia revisited: visually guided action versus immediate visuomotor control. , 2003, Experimental brain research.

[88]  M. Goodale,et al.  Perceptual illusion and the real-time control of action. , 2003, Spatial vision.

[89]  Deborah A Hall,et al.  Auditory Pathways: Are ‘What’ and ‘Where’ Appropriate? , 2003, Current Biology.

[90]  Doris Y. Tsao,et al.  Neuroimaging Weighs In: Humans Meet Macaques in “Primate” Visual Cortex , 2003, The Journal of Neuroscience.

[91]  Richard A. Andersen,et al.  FMRI evidence for a 'parietal reach region' in the human brain , 2003, Experimental Brain Research.

[92]  G. Rizzolatti,et al.  Two different streams form the dorsal visual system: anatomy and functions , 2003, Experimental Brain Research.

[93]  M. Goodale,et al.  Ventral occipital lesions impair object recognition but not object-directed grasping: an fMRI study. , 2003, Brain : a journal of neurology.

[94]  Joan López-Moliner,et al.  Comparing the Sensitivity of Manual Pursuit and Perceptual Judgments to Pictorial Depth Effects , 2003, Psychological science.

[95]  François Michel,et al.  Seeing without the Occipito-Parietal Cortex: Simultagnosia as a Shrinkage of the Attentional Visual Field , 2004, Behavioural neurology.

[96]  Robert D. McIntosh,et al.  Grasping What is Graspable: Evidence from Visual form Agnosia , 2004, Cortex.

[97]  Peter Dixon,et al.  Action and Memory , 2004 .

[98]  A. Milner,et al.  Automatic avoidance of obstacles is a dorsal stream function: evidence from optic ataxia , 2004, Nature Neuroscience.

[99]  M. Goodale,et al.  Two distinct modes of control for object-directed action. , 2004, Progress in brain research.

[100]  Matthew Heath,et al.  Background visual cues and memory-guided reaching. , 2004, Human movement science.

[101]  A. Milner,et al.  The perception and prehension of objects oriented in the depth plane , 1996, Experimental Brain Research.

[102]  Paul Dassonville,et al.  Perception, Action, and Roelofs Effect: A Mere Illusion of Dissociation , 2004, PLoS biology.

[103]  Eli Brenner,et al.  Size illusion influences how we lift but not how we grasp an object , 1996, Experimental Brain Research.

[104]  R. Johansson,et al.  Visual size cues in the programming of manipulative forces during precision grip , 2004, Experimental Brain Research.

[105]  Bruce Bridgeman,et al.  The induced Roelofs effect: two visual systems or the shift of a single reference frame? , 2004, Vision Research.

[106]  Glyn W Humphreys,et al.  Impaired orientation discrimination and localisation following parietal damage: On the interplay between dorsal and ventral processes in visual perception , 2004, Cognitive neuropsychology.

[107]  A. Milner,et al.  Avoidance of obstacles in the absence of visual awareness , 2004, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[108]  M. Perenin,et al.  Cortical control of visually guided reaching: evidence from patients with optic ataxia. , 2005, Cerebral cortex.

[109]  Hans-Otto Karnath,et al.  Dorsal and Ventral Stream Interaction: Contributions from Optic Ataxia , 2005, Journal of Cognitive Neuroscience.

[110]  R. Wise,et al.  Sounds do-able: auditory–motor transformations and the posterior temporal plane , 2005, Trends in Neurosciences.

[111]  Melvyn A. Goodale,et al.  The effects of landmarks on the performance of delayed and real-time pointing movements , 2005, Experimental Brain Research.

[112]  Svetlana S. Georgieva,et al.  Using Functional Magnetic Resonance Imaging to Assess Adaptation and Size Invariance of Shape Processing by Humans and Monkeys , 2005, The Journal of Neuroscience.

[113]  David C Knill,et al.  Reaching for visual cues to depth: the brain combines depth cues differently for motor control and perception. , 2005, Journal of vision.

[114]  D. Westwood,et al.  Time Course Analysis of Closed- and Open-Loop Grasping of the Müller-Lyer Illusion , 2005, Journal of motor behavior.

[115]  A. Milner,et al.  Visually guided reaching: bilateral posterior parietal lesions cause a switch from fast visuomotor to slow cognitive control , 2005, Neuropsychologia.

[116]  T. Nakada,et al.  MT+/V5 activation without conscious motion perception: a high-field fMRI study. , 2005, Magnetic resonance in medical sciences : MRMS : an official journal of Japan Society of Magnetic Resonance in Medicine.

[117]  James Danckert,et al.  Blindsight in action: what can the different sub-types of blindsight tell us about the control of visually guided actions? , 2005, Neuroscience & Biobehavioral Reviews.

[118]  A. Milner,et al.  The role of V5/MT+ in the control of catching movements: an rTMS study , 2005, Neuropsychologia.

[119]  Peter Neri,et al.  A stereoscopic look at visual cortex. , 2005, Journal of neurophysiology.

[120]  Leonard Matin,et al.  Two wrongs make a right: linear increase of accuracy of visually-guided manual pointing, reaching, and height-matching with increase in hand-to-body distance , 2005, Vision Research.

[121]  C. Redon,et al.  Role of visual context and oculomotor conditions in pointing accuracy , 2005, Neuroreport.

[122]  Friedemann Pulvermüller,et al.  Brain mechanisms linking language and action , 2005, Nature Reviews Neuroscience.

[123]  D. V. van Essen,et al.  Corticocortical and thalamocortical information flow in the primate visual system. , 2005, Progress in brain research.

[124]  M. Jeannerod,et al.  Visual cognition: a new look at the two-visual systems model , 2005, Neuropsychologia.

[125]  M. Husain,et al.  Where the Eye Looks, the Hand Follows Limb-Dependent Magnetic Misreaching in Optic Ataxia , 2005, Current Biology.

[126]  H. Kennedy,et al.  Two Cortical Systems for Reaching in Central and Peripheral Vision , 2005, Neuron.

[127]  David C. Knill,et al.  Integrating visual cues for motor control: A matter of time , 2005, Vision Research.

[128]  Robert D. McIntosh,et al.  The use of visual feedback is independent of visual awareness: evidence from visual extinction , 2005, Experimental Brain Research.

[129]  Eli Brenner,et al.  Sensory integration does not lead to sensory calibration , 2006, Proceedings of the National Academy of Sciences.

[130]  Josef Perner,et al.  Dissociating size representation for action and for conscious judgment: Grasping visual illusions without apparent obstacles , 2006, Consciousness and Cognition.

[131]  R. Andersen,et al.  The posterior parietal cortex: Sensorimotor interface for the planning and online control of visually guided movements , 2006, Neuropsychologia.

[132]  Thomas Schenk,et al.  Concurrent visuomotor behaviour improves form discrimination in a patient with visual form agnosia , 2006, The European journal of neuroscience.

[133]  M. Mon-Williams,et al.  Intact automatic avoidance of obstacles in patients with visual form agnosia , 2006, Experimental Brain Research.

[134]  Paul S. Morgan,et al.  Parietal updating of limb posture: An event-related fMRI study , 2006, Neuropsychologia.

[135]  Y. Rossetti,et al.  No double-dissociation between optic ataxia and visual agnosia: Multiple sub-streams for multiple visuo-manual integrations , 2006, Neuropsychologia.

[136]  D. Kersten,et al.  The representation of perceived angular size in human primary visual cortex , 2006, Nature Neuroscience.

[137]  Yann Coello,et al.  Effect of structuring the workspace on cognitive and sensorimotor distance estimation: No dissociation between perception and action , 2006, Perception & psychophysics.

[138]  E. Brenner,et al.  10 years of illusions. , 2006, Journal of experimental psychology. Human perception and performance.

[139]  Laurette Hay,et al.  Response delay and spatial representation in pointing movements , 2006, Neuroscience Letters.

[140]  T. Schenk,et al.  An allocentric rather than perceptual deficit in patient D.F. , 2006, Nature Neuroscience.

[141]  Kenneth F. Valyear,et al.  A double dissociation between sensitivity to changes in object identity and object orientation in the ventral and dorsal visual streams: A human fMRI study , 2006, Neuropsychologia.

[142]  Arash Sahraie,et al.  Form discrimination in a case of blindsight , 2007, Neuropsychologia.

[143]  Geraint Rees,et al.  Neural correlates of the contents of visual awareness in humans , 2007, Philosophical Transactions of the Royal Society B: Biological Sciences.

[144]  D. Rosenbaum,et al.  Hand path priming in manual obstacle avoidance: evidence that the dorsal stream does not only control visually guided actions in real time. , 2007, Journal of experimental psychology. Human perception and performance.

[145]  Jonathan S. Cant,et al.  Cerebral Cortex Advance Access published April 28, 2006 Attention to Form or Surface Properties Modulates Different Regions of Human , 2022 .

[146]  James Danckert,et al.  Deficits in peripheral visual attention in patients with optic ataxia , 2007, Neuroreport.

[147]  Matthew Heath,et al.  The proximity of visual landmarks impacts reaching performance. , 2007, Spatial vision.

[148]  S. Kastner,et al.  Two hierarchically organized neural systems for object information in human visual cortex , 2008, Nature Neuroscience.

[149]  Maurizio Gentilucci,et al.  Visually guided pointing, the Müller-Lyer illusion, and the functional interpretation of the dorsal-ventral split: Conclusions from 33 independent studies , 2008, Neuroscience & Biobehavioral Reviews.

[150]  Semir Zeki,et al.  Motion processing, directional selectivity, and conscious visual perception in the human brain , 2008, Proceedings of the National Academy of Sciences.

[151]  Karl R Gegenfurtner,et al.  Grasping visual illusions: Consistent data and no dissociation , 2008, Cognitive neuropsychology.

[152]  Bruno B Averbeck,et al.  Neural Ensemble Decoding Reveals a Correlate of Viewer- to Object-Centered Spatial Transformation in Monkey Parietal Cortex , 2008, The Journal of Neuroscience.

[153]  L. Matin,et al.  A tilted frame deceives the eye and the hand. , 2008, Journal of vision.

[154]  Rolf A. Zwaan,et al.  Embodied Language: A Review of the Role of the Motor System in Language Comprehension , 2008, Quarterly journal of experimental psychology.

[155]  Robert D. McIntosh,et al.  Matching boxes: Familiar size influences action programming , 2008, Neuropsychologia.

[156]  Melvyn A. Goodale,et al.  Action without perception in human vision , 2008, Cognitive neuropsychology.

[157]  M. Goodale,et al.  Two visual systems re-viewed , 2008, Neuropsychologia.

[158]  Tzvi Ganel,et al.  A Double Dissociation Between Action and Perception in the Context of Visual Illusions , 2008, Psychological science.

[159]  C. de’Sperati,et al.  Blind Saccades: An Asynchrony between Seeing and Looking , 2008, The Journal of Neuroscience.

[160]  Eli Brenner,et al.  Grasping Weber's law , 2008, Current Biology.

[161]  Glyn W. Humphreys,et al.  Delay abolishes the obstacle avoidance deficit in unilateral optic ataxia , 2008, Neuropsychologia.

[162]  Andy Clark,et al.  Perception, action, and experience: Unraveling the golden braid , 2009, Neuropsychologia.

[163]  Thomas Schenk,et al.  Immediate and delayed actions share a common visuomotor transformation mechanism: A prism adaptation study , 2009, Neuropsychologia.

[164]  Peter Dixon,et al.  Perseveration and contrast effects in grasping , 2009, Neuropsychologia.

[165]  C. Hesse,et al.  Visual illusions, delayed grasping, and memory: No shift from dorsal to ventral control , 2009, Neuropsychologia.

[166]  James Danckert,et al.  Attention for action? Examining the link between attention and visuomotor control deficits in a patient with optic ataxia , 2009, Neuropsychologia.

[167]  Jody C. Culham,et al.  Ventral and dorsal stream contributions to the online control of immediate and delayed grasping: A TMS approach , 2009, Neuropsychologia.

[168]  Y. Rossetti,et al.  Optic ataxia and the function of the dorsal stream: Contributions to perception and action , 2009, Neuropsychologia.

[169]  H. Bekkering,et al.  Action semantic knowledge about objects is supported by functional motor activation. , 2009, Journal of experimental psychology. Human perception and performance.

[170]  Michael Erb,et al.  Brain activation during immediate and delayed reaching in optic ataxia , 2009, Neuropsychologia.

[171]  C. Hesse,et al.  Memory mechanisms in grasping , 2009, Neuropsychologia.

[172]  Peter Janssen,et al.  A Distinct Representation of Three-Dimensional Shape in Macaque Anterior Intraparietal Area: Fast, Metric, and Coarse , 2009, The Journal of Neuroscience.

[173]  Volker H. Franz,et al.  When is grasping affected by the Müller-Lyer illusion? A quantitative review , 2009, Neuropsychologia.

[174]  Johannes Rüter,et al.  The Anatomy of Object Recognition—Visual Form Agnosia Caused by Medial Occipitotemporal Stroke , 2009, The Journal of Neuroscience.

[175]  T. C. W. Nijboer,et al.  Choosing between alternative wrist postures: Action planning needs perception , 2009, Neuropsychologia.

[176]  Masud Husain,et al.  There may be more to reaching than meets the eye: Re-thinking optic ataxia , 2009, Neuropsychologia.

[177]  Eli Brenner,et al.  Slant cues are processed with different latencies for the online control of movement. , 2009, Journal of vision.

[178]  Craig S. Chapman,et al.  “Real-time” obstacle avoidance in the absence of primary visual cortex , 2009, Proceedings of the National Academy of Sciences.

[179]  Jody C. Culham,et al.  Observing Learned Object-specific Functional Grasps Preferentially Activates the Ventral Stream , 2010, Journal of Cognitive Neuroscience.

[180]  Y. Rossetti,et al.  Corrigendum to “Optic ataxia and the function of the dorsal stream: Contributions to perception and action” [Neuropsychologia 47 (14) (2009) 3033–3044] , 2010, Neuropsychologia.

[181]  Harold Bekkering,et al.  Human Neuroscience , 2022 .