From 'acting on' to 'acting with': the functional anatomy of object-oriented action schemata.

In this chapter it is proposed that object-based actions can be broadly classified into types. In the first, objects are 'acted on' without a specific purpose. In the second, objects are 'acted with'. In the latter case the grasp reflects the subsequent goal of the subject. Recent evidence from human functional imaging suggests different neural substrates for acting on an object (dorsal parietal cortex) and for acting with an object. Specifically, it is argued that conceptual knowledge of tool use and the pragmatics of action rely on an inferior parieto-medial frontal network in the left hemisphere.

[1]  G. Rizzolatti,et al.  The Cortical Motor System , 2001, Neuron.

[2]  H. Bülthoff,et al.  Separate neural pathways for the visual analysis of object shape in perception and prehension , 1994, Current Biology.

[3]  Angela Sirigu,et al.  A Selective Impairment of Hand Posture for Object Utilization in Apraxia , 1995, Cortex.

[4]  C. Colby Action-Oriented Spatial Reference Frames in Cortex , 1998, Neuron.

[5]  L. Buxbaum Ideomotor Apraxia: a Call to Action , 2001, Neurocase.

[6]  Scott T. Grafton,et al.  Premotor Cortex Activation during Observation and Naming of Familiar Tools , 1997, NeuroImage.

[7]  S. H. Johnson,et al.  Cerebral Organization of Motor Imagery: Contralateral Control of Grip Selection in Mentally Represented Prehension , 1998 .

[8]  M. Jeannerod The neural and behavioural organization of goal-directed movements , 1990, Psychological Medicine.

[9]  J. Mazziotta,et al.  Brain-behavior relationships: evidence from practice effects in spatial stimulus-response compatibility. , 1996, Journal of neurophysiology.

[10]  Paul B. Johnson,et al.  Premotor and parietal cortex: corticocortical connectivity and combinatorial computations. , 1997, Annual review of neuroscience.

[11]  C. Gross,et al.  Visuospatial properties of ventral premotor cortex. , 1997, Journal of neurophysiology.

[12]  G. Rizzolatti,et al.  Premotor cortex and the recognition of motor actions. , 1996, Brain research. Cognitive brain research.

[13]  M. Jeannerod The timing of natural prehension movements. , 1984, Journal of motor behavior.

[14]  H. Sakata,et al.  Parietal neurons related to memory-guided hand manipulation. , 1996, Journal of neurophysiology.

[15]  A. Galaburda,et al.  Inferior parietal lobule. Divergent architectonic asymmetries in the human brain. , 1984, Archives of neurology.

[16]  D. Perrett,et al.  Integration of form and motion in the anterior superior temporal polysensory area (STPa) of the macaque monkey. , 1996, Journal of neurophysiology.

[17]  J. Bullier,et al.  Anatomical segregation of two cortical visual pathways in the macaque monkey , 1990, Visual Neuroscience.

[18]  Kiyoshi Kurata,et al.  Corticocortical inputs to the dorsal and ventral aspects of the premotor cortex of macaque monkeys , 1991, Neuroscience Research.

[19]  F. Lacquaniti,et al.  Representing spatial information for limb movement: role of area 5 in the monkey. , 1995, Cerebral cortex.

[20]  N. Geschwind Disconnexion syndromes in animals and man. I. , 1965, Brain : a journal of neurology.

[21]  Leslie G. Ungerleider,et al.  Pathways for motion analysis: Cortical connections of the medial superior temporal and fundus of the superior temporal visual areas in the macaque , 1990, The Journal of comparative neurology.

[22]  R T Knight,et al.  Neural representations of skilled movement. , 2000, Brain : a journal of neurology.

[23]  A P Batista,et al.  Reach plans in eye-centered coordinates. , 1999, Science.

[24]  Dr. phil. et med. H. Liepmann Das Krankheitsbild der Apraxie (“motorischen Asymbolie”) auf Grund eines Falles von einseitiger Apraxie (Fortsetzung.) pp. 117–132 , 1900 .

[25]  Scott T. Grafton,et al.  Functional Anatomy of Nonvisual Feedback Loops during Reaching: A Positron Emission Tomography Study , 2001, The Journal of Neuroscience.

[26]  M Jeannerod,et al.  The hand and the object: the role of posterior parietal cortex in forming motor representations. , 1994, Canadian journal of physiology and pharmacology.

[27]  R. Schmidt A schema theory of discrete motor skill learning. , 1975 .

[28]  Scott T. Grafton,et al.  Human functional anatomy of visually guided finger movements. , 1992, Brain : a journal of neurology.

[29]  P. Goldman-Rakic,et al.  Posterior parietal cortex in rhesus monkey: II. Evidence for segregated corticocortical networks linking sensory and limbic areas with the frontal lobe , 1989, The Journal of comparative neurology.

[30]  G. Rizzolatti,et al.  Functional organization of inferior area 6 in the macaque monkey , 2004, Experimental Brain Research.

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

[32]  Scott T. Grafton,et al.  Selective Activation of a Parietofrontal Circuit during Implicitly Imagined Prehension , 2002, NeuroImage.

[33]  H. Barbas Anatomic organization of basoventral and mediodorsal visual recipient prefrontal regions in the rhesus monkey , 1988, The Journal of comparative neurology.

[34]  Leslie G. Ungerleider,et al.  Neural correlates of category-specific knowledge , 1996, Nature.

[35]  G. Rizzolatti,et al.  Localization of grasp representations in humans by PET: 1. Observation versus execution , 1996, Experimental Brain Research.

[36]  M. Tanaka,et al.  Coding of modified body schema during tool use by macaque postcentral neurones. , 1996, Neuroreport.

[37]  R. Andersen,et al.  Multimodal representation of space in the posterior parietal cortex and its use in planning movements. , 1997, Annual review of neuroscience.

[38]  D. Povinelli Folk physics for apes : the chimpanzee's theory of how the world works , 2003 .

[39]  F. Lacquaniti,et al.  Eye-hand coordination during reaching. I. Anatomical relationships between parietal and frontal cortex. , 2001, Cerebral cortex.

[40]  M. Jeannerod Mechanisms of visuomotor coordination: A study in normal and brain-damaged subjects , 1986, Neuropsychologia.

[41]  D. Perrett,et al.  Neural Representation for the Perception of the Intentionality of Actions , 2000, Brain and Cognition.

[42]  A. Georgopoulos,et al.  Parietal cortex neurons of the monkey related to the visual guidance of hand movement , 1990, Experimental Brain Research.

[43]  M. Arbib,et al.  Opposition Space as a Structuring Concept for the Analysis of Skilled Hand Movements , 1986 .

[44]  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.

[45]  S Ferraina,et al.  Cortical Networks for Visual Reaching: Intrinsic Frontal Lobe Connectivity , 1996, The European journal of neuroscience.

[46]  L. Goldstein The frontal lobes and voluntary action , 1996 .

[47]  C D Marsden,et al.  Limb apraxias: higher-order disorders of sensorimotor integration. , 2000, Brain : a journal of neurology.

[48]  R. Lemon,et al.  Cortical afferents and efferents of monkey postarcuate area: an anatomical and electrophysiological study , 2004, Experimental Brain Research.

[49]  C. Gross,et al.  Coding of visual space by premotor neurons. , 1994, Science.

[50]  Claude Prablanc,et al.  Neural control of space coding and action production , 2003 .

[51]  遠藤 正臣,et al.  H. Liepmann;Das Krankheitsbild der Apraxie("motorische Asymbolie")--auf Grund eines Falles von einseitiger Apraxie〔Monatsschrift f. Psychiatrie u. Neurologie,8:15-44,102-132,182-197,1900〕-3- , 1980 .

[52]  J. Mattingley,et al.  Annual meeting of the Cognitive Neuroscience Society , 1997 .

[53]  Karl J. Friston,et al.  Regional cerebral blood flow during volitional breathing in man. , 1991, The Journal of physiology.

[54]  Scott T. Grafton,et al.  Role of the posterior parietal cortex in updating reaching movements to a visual target , 1999, Nature Neuroscience.

[55]  R Caminiti,et al.  Early coding of visuomanual coordination during reaching in parietal area PEc. , 2001, Journal of neurophysiology.

[56]  C. Prablanc,et al.  Neural control of on-line guidance of hand reaching movements. , 2003, Progress in brain research.

[57]  N. Geschwind Disconnexion syndromes in animals and man. II. , 1965, Brain : a journal of neurology.

[58]  M. Hallett,et al.  The role of posterior parietal cortex in visually guided reaching movements in humans , 1997, Experimental Brain Research.

[59]  Karl J. Friston,et al.  Cortical areas and the selection of movement: a study with positron emission tomography , 1991, Experimental Brain Research.

[60]  Jun Tanji,et al.  Integration of target and body-part information in the premotor cortex when planning action , 2000, Nature.

[61]  Alex Martin,et al.  Representation of Manipulable Man-Made Objects in the Dorsal Stream , 2000, NeuroImage.

[62]  G E Alexander,et al.  Preferential representation of instructed target location versus limb trajectory in dorsal premotor area. , 1997, Journal of neurophysiology.

[63]  Michael A. Arbib,et al.  Perceptual Structures and Distributed Motor Control , 1981 .

[64]  D. Pandya,et al.  Intrinsic connections and architectonics of posterior parietal cortex in the rhesus monkey , 1982, The Journal of comparative neurology.

[65]  H. Head Aphasia and kindred disorders of speech , 1926 .

[66]  P. Kam,et al.  : 4 , 1898, You Can Cross the Massacre on Foot.

[67]  RP Dum,et al.  Topographic organization of corticospinal projections from the frontal lobe: motor areas on the lateral surface of the hemisphere , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[68]  H. Sakata,et al.  Neural mechanisms of visual guidance of hand action in the parietal cortex of the monkey. , 1995, Cerebral cortex.

[69]  M. Jeannerod,et al.  Mental motor imagery: a window into the representational stages of action , 1995, Current Opinion in Neurobiology.

[70]  Scott T. Grafton,et al.  Dorsal premotor cortex and conditional movement selection: A PET functional mapping study. , 1998, Journal of neurophysiology.

[71]  D. Pandya,et al.  Projections to the frontal cortex from the posterior parietal region in the rhesus monkey , 1984, The Journal of comparative neurology.

[72]  Steven M. Finbeiner,et al.  The Neural and Behavioral Organization of Goal-Directed Movements , 1989, The Yale Journal of Biology and Medicine.

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

[74]  Paul B. Johnson,et al.  The sources of visual information to the primate frontal lobe: a novel role for the superior parietal lobule. , 1996, Cerebral cortex.

[75]  M. Perenin Optic ataxia: a specific disruption in visuomotor mechanisms. I. Different aspects of the deficit in reaching for objects , 1997 .

[76]  A. Murata,et al.  Largely segregated parietofrontal connections linking rostral intraparietal cortex (areas AIP and VIP) and the ventral premotor cortex (areas F5 and F4) , 1999, Experimental Brain Research.

[77]  G. Rizzolatti,et al.  Coding of peripersonal space in inferior premotor cortex (area F4). , 1996, Journal of neurophysiology.

[78]  H. Sakata,et al.  The TINS Lecture The parietal association cortex in depth perception and visual control of hand action , 1997, Trends in Neurosciences.

[79]  C Galletti,et al.  Superior area 6 afferents from the superior parietal lobule in the macaque monkey , 1998, The Journal of comparative neurology.

[80]  C. Colby,et al.  Heterogeneity of extrastriate visual areas and multiple parietal areas in the Macaque monkey , 1991, Neuropsychologia.

[81]  M. Arbib Coordinated control programs for movements of the hand , 1985 .

[82]  S. H. Johnson,et al.  Thinking ahead: the case for motor imagery in prospective judgements of prehension , 2000, Cognition.

[83]  Scott T. Grafton,et al.  Localization of grasp representations in humans by positron emission tomography , 1996, Experimental Brain Research.

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

[85]  M. Goldberg,et al.  Ventral intraparietal area of the macaque: congruent visual and somatic response properties. , 1998, Journal of neurophysiology.

[86]  H. Onoe,et al.  Functional Brain Mapping of Monkey Tool Use , 2001, NeuroImage.

[87]  R. J. Seitz,et al.  A fronto‐parietal circuit for object manipulation in man: evidence from an fMRI‐study , 1999, The European journal of neuroscience.

[88]  Z. Pylyshyn,et al.  Vision and Action: The Control of Grasping , 1990 .

[89]  L. Jakobson,et al.  A kinematic analysis of reaching and grasping movements in a patient recovering from optic ataxia , 1991, Neuropsychologia.

[90]  G. Rizzolatti,et al.  Space coding by premotor cortex , 2004, Experimental Brain Research.

[91]  C Dohle,et al.  Human anterior intraparietal area subserves prehension , 1998, Neurology.

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

[93]  A. Simeone,et al.  The TINS Lecture Understanding the roles of Otx1 and Otx2 in the control of brain morphogenesis , 1999, Trends in Neurosciences.

[94]  C. Gross,et al.  Spatial maps for the control of movement , 1998, Current Opinion in Neurobiology.