Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/object-size-modulates-fronto-parietal-activity-during-reaching-fKXFtdAA7k
References (111)
-
E. Hoshi, H. Sawamura, J. Tanji (2005)
Neurons in the rostral cingulate motor area monitor multiple phases of visuomotor behavior with modest parametric selectivityJ. Motor Behav., 94
-
A. Delorme, S. Makeig (2004)
EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysisJournal of Neuroscience Methods, 134
-
J. Culham, C. Cavina-Pratesi, A. Singhal (2006)
The role of parietal cortex in visuomotor control: What have we learned from neuroimaging?Neuropsychologia, 44
-
C. Galletti, P. Fattori, P. Battaglini, S. Shipp, S. Zeki (1996)
Functional Demarcation of a Border Between Areas V6 and V6A in the Superior Parietal Gyrus of the Macaque MonkeyEuropean Journal of Neuroscience, 8
-
W.P. Medendorp, H.C. Goltz, J.D. Crawford, T. Vilis (2005)
Integration of target and effector information in human posterior parietal cortex for the planning of actionCereb. Cortex, 93
-
Scott Glover (2004)
Separate visual representations in the planning and control of actionBehavioral and Brain Sciences, 27
-
C. Buneo, M. Jarvis, A. Batista, R. Andersen (2002)
Direct visuomotor transformations for reachingNature, 416
-
J. Naranjo, A. Brovelli, R. Longo, R. Budai, R. Kristeva, P. Battaglini (2007)
EEG dynamics of the frontoparietal network during reaching preparation in humansNeuroImage, 34
-
E. Hoshi, J. Tanji (2002)
Contrasting neuronal activity in the dorsal and ventral premotor areas during preparation to reach.Journal of neurophysiology, 87 2
-
E. Hoshi, J. Tanji (2000)
Integration of target and body-part information in the premotor cortex when planning actionNature, 408
-
N. Berthier, R. Clifton, V. Gullapalli, D. Mccall, D. Robin (1996)
Visual Information and Object Size in the Control of Reaching.Journal of motor behavior, 28 3
-
C. Kertzman, U. Schwarz, T. Zeffiro, M. Hallett (1997)
The role of posterior parietal cortex in visually guided reaching movements in humansExperimental Brain Research, 114
-
M. Grol, J. Majdandzic, K. Stephan, L. Verhagen, H. Dijkerman, H. Bekkering, Frans Verstraten, I. Toni (2007)
Parieto-Frontal Connectivity during Visually Guided GraspingThe Journal of Neuroscience, 27
-
A. Battaglia-Mayer, S. Ferraina, Takashi Mitsuda, Barbara Marconi, A. Genovesio, Paolo Onorati, Francesco Lacquaniti, R. Caminiti (2000)
Early coding of reaching in the parietooccipital cortex.Journal of neurophysiology, 83 4
-
Ada Kritikos, Georgina Jackson, Stephen Jackson (1998)
The influence of initial hand posture on the expression of prehension parametersExperimental Brain Research, 119
-
U. Castiello (2005)
The neuroscience of graspingNature Reviews Neuroscience, 6
-
J. Culham, S. Danckert, Joseph Souza, J. Gati, Ravi Menon, M. Goodale (2003)
Visually guided grasping produces fMRI activation in dorsal but not ventral stream brain areasExperimental Brain Research, 153
-
R. Kawashima, K. Satoh, H. Itoh, S. Ono, S. Furumoto, R. Gotoh, M. Koyama, S. Yoshioka, Tsuneo Takahashi, Kunihisa Takahashi, T. Yanagisawa, H. Fukuda (1996)
Functional anatomy of GO/NO-GO discrimination and response selection — a PET study in manBrain Research, 728
-
Daniel Thoenissen, K. Zilles, I. Toni (2002)
Differential Involvement of Parietal and Precentral Regions in Movement Preparation and Motor IntentionThe Journal of Neuroscience, 22
-
E. Hoshi, J. Tanji (2002)
Contrasting neuronal activity in the dorsal and ventral premotor areas during preparation to reachProg. Brain Res., 87
-
E. Hoshi, J. Tanji (2004)
Area-selective neuronal activity in the dorsolateral prefrontal cortex for information retrieval and action planning.Journal of neurophysiology, 91 6
-
D. Hagler, L. Riecke, M. Sereno (2007)
Parietal and superior frontal visuospatial maps activated by pointing and saccadesNeuroImage, 35
-
R. Andersen, C. Buneo (2002)
Intentional maps in posterior parietal cortex.Annual review of neuroscience, 25
-
J.F. Kalaska, S.H. Scott, P. Cisek, L.E. Sergio (1997)
Cortical control of reaching movementsBrain Res., 7
-
A. Gail, R. Andersen (2006)
Neural Dynamics in Monkey Parietal Reach Region Reflect Context-Specific Sensorimotor TransformationsThe Journal of Neuroscience, 26
-
J. Calton, Anthony Dickinson, L. Snyder (2002)
Non-spatial, motor-specific activation in posterior parietal cortexNature Neuroscience, 5
-
J. Culham, Kenneth Valyear (2006)
Human parietal cortex in actionCurrent Opinion in Neurobiology, 16
-
D. Wolpert, Zoubin Ghahramani (2000)
Computational principles of movement neuroscienceNature Neuroscience, 3 Suppl 1
-
R. Caminiti, S. Ferraina, A. Mayer (1998)
Visuomotor transformations: early cortical mechanisms of reachingCurrent Opinion in Neurobiology, 8
-
M. Weinrich, S.P. Wise, K.H. Mauritz (1984)
A neurophysiological study of the premotor cortex in the rhesus monkeyNat. Neurosci., 107
-
Jean Decety, Ryuta Kawashima, Balázs Gulyás, Per Roland (1992)
Preparation for reaching: a PET study of the participating structures in the human brain.Neuroreport, 3 9
-
P. Fattori, R. Breveglieri, V. Raos, A. Bosco, C. Galletti (2012)
Vision for Action in the Macaque Medial Posterior Parietal CortexThe Journal of Neuroscience, 32
-
P. Fattori, R. Breveglieri, Nicoletta Marzocchi, D. Filippini, A. Bosco, C. Galletti (2009)
Hand Orientation during Reach-to-Grasp Movements Modulates Neuronal Activity in the Medial Posterior Parietal Area V6AThe Journal of Neuroscience, 29
-
J. Connolly, R. Andersen, M. Goodale (2003)
FMRI evidence for a 'parietal reach region' in the human brainExperimental Brain Research, 153
-
A. Battaglia-Mayer, R. Caminiti, F. Lacquaniti, M. Zago (2003)
Multiple levels of representation of reaching in the parieto-frontal network.Cerebral cortex, 13 10
-
S. Beurze, F. Lange, I. Toni, W. Medendorp (2009)
Spatial and effector processing in the human parietofrontal network for reaches and saccades.Journal of neurophysiology, 101 6
-
C. Grefkes, A. Ritzl, K. Zilles, G. Fink (2004)
Human medial intraparietal cortex subserves visuomotor coordinate transformationNeuroImage, 23
-
S. Monaco, Ying Chen, W. Medendorp, J. Crawford, K. Fiehler, D. Henriques (2014)
Functional magnetic resonance imaging adaptation reveals the cortical networks for processing grasp-relevant object properties.Cerebral cortex, 24 6
-
R. Shadmehr, S. Wise (2004)
The Computational Neurobiology of Reaching and Pointing: A Foundation for Motor Learning -
Flavia Filimon, Jonathan Nelson, Ruey-Song Huang, M. Sereno (2009)
Multiple Parietal Reach Regions in Humans: Cortical Representations for Visual and Proprioceptive Feedback during On-Line ReachingThe Journal of Neuroscience, 29
-
S. Astafiev, G. Shulman, Christine Stanley, A. Snyder, D. Essen, M. Corbetta (2003)
Functional Organization of Human Intraparietal and Frontal Cortex for Attending, Looking, and PointingThe Journal of Neuroscience, 23
-
M. Mascaro, A. Battaglia‐Mayer, L. Nasi, D.J. Amit, R. Caminiti (2003)
The eye and the hand: neural mechanisms and network models for oculomanual coordination in parietal cortexExp. Brain Res., 13
-
H. Shibasaki, M. Hallett (2006)
What is the Bereitschaftspotential?Clinical Neurophysiology, 117
-
J. Prado, S. Clavagnier, H. Otzenberger, C. Scheiber, H. Kennedy, M. Perenin (2005)
Two Cortical Systems for Reaching in Central and Peripheral VisionNeuron, 48
-
E. Hoshi, J. Tanji (2004)
Functional specialization in dorsal and ventral premotor areas.Progress in brain research, 143
-
C. Cavina-Pratesi, S. Monaco, P. Fattori, C. Galletti, Teresa McAdam, D. Quinlan, M. Goodale, J. Culham (2010)
Functional Magnetic Resonance Imaging Reveals the Neural Substrates of Arm Transport and Grip Formation in Reach-to-Grasp Actions in HumansThe Journal of Neuroscience, 30
-
Castiello (2005)
The neuroscience of graspingNat. Rev. Neurosci., 6
-
S. Astafiev, Christine Stanley, G. Shulman, M. Corbetta (2004)
Extrastriate body area in human occipital cortex responds to the performance of motor actionsNature Neuroscience, 7
-
C. Bozzacchi, M. Giusti, S. Pitzalis, D. Spinelli, F. Russo (2012)
Awareness affects motor planning for goal-oriented actionsBiological Psychology, 89
-
C. Galletti, R. Breveglieri, M. Lappe, A. Bosco, Marco Ciavarro, P. Fattori (2010)
Covert Shift of Attention Modulates the Ongoing Neural Activity in a Reaching Area of the Macaque Dorsomedial Visual StreamPLoS ONE, 5
-
I. Berndt, V. Franz, H. Bülthoff, E. Wascher (2002)
Effects of pointing direction and direction predictability on event-related lateralizations of the EEG.Human movement science, 21 3
-
K. McDowell, J.J. Jeka, G. Schöner, B.D. Hatfield (2002)
Behavioral and electrocortical evidence of an interaction between probability and task metrics in movement preparationJ. Neurosci., 144
-
Judith Tanné-Gariépy, E. Rouiller, D. Boussaoud (2002)
Parietal inputs to dorsal versus ventral premotor areas in the macaque monkey: evidence for largely segregated visuomotor pathwaysExperimental Brain Research, 145
-
J. Gallivan, D. Mclean, Kenneth Valyear, Charles Pettypiece, J. Culham (2011)
Decoding Action Intentions from Preparatory Brain Activity in Human Parieto-Frontal NetworksThe Journal of Neuroscience, 31
-
Axel Lindner, Asha Iyer, Igor Kagan, Richard Andersen (2010)
Human Posterior Parietal Cortex Plans Where to Reach and What to AvoidThe Journal of Neuroscience, 30
-
Aaron Batista, Richard Andersen (2001)
The parietal reach region codes the next planned movement in a sequential reach task.Journal of neurophysiology, 85 2
-
C. Kertzman, U. Schwarz, T.A. Zeffiro, M. Hallett (1997)
The role of posterior parietal cortex in visually guided reaching movements in humansJ. Neurophysiol., 114
-
Scott Glover, M. Wall, Andrew Smith (2012)
Distinct cortical networks support the planning and online control of reaching‐to‐grasp in humansEuropean Journal of Neuroscience, 35
-
M. Jeannerod (1984)
The timing of natural prehension movements.Journal of motor behavior, 16 3
-
U. Castiello, C. Umilta (1990)
Size of the attentional focus and efficiency of processing.Acta psychologica, 73 3
-
E. Hoshi, J. Tanji (2004a)
Functional specialization in dorsal and ventral premotor areasJ. Neurophysiol., 143
-
M. Gentilucci, U. Castiello, M. Corradini, M. Scarpa, C. Umilta, G. Rizzolatti (1991)
Influence of different types of grasping on the transport component of prehension movementsNeuropsychologia, 29
-
Asa Pellijeff, L. Bonilha, P. Morgan, Kirsten McKenzie, S. Jackson (2006)
Parietal updating of limb posture: An event-related fMRI studyNeuropsychologia, 44
-
F. Sharbrough, G. Chatrian, R. Lesser, H. Lüders, M. Nuwer, T. Picton (1991)
American Electroencephalographic Society Guidelines for Standard Electrode Position NomenclatureJournal of Clinical Neurophysiology, 8
-
C. Galletti, P. Fattori, D. Kutz, P. Battaglini (1997)
Arm Movement‐related Neurons in the Visual Area V6A of the Macaque Superior Parietal LobuleEuropean Journal of Neuroscience, 9
-
K. McDowell, J. Jeka, G. Schöner, B. Hatfield (2002)
Behavioral and electrocortical evidence of an interaction between probability and task metrics in movement preparationExperimental Brain Research, 144
-
M. Weinrich, S. Wise, K. Mauritz (1984)
A neurophysiological study of the premotor cortex in the rhesus monkey.Brain : a journal of neurology, 107 ( Pt 2)
-
Flavia Filimon (2010)
Human Cortical Control of Hand Movements: Parietofrontal Networks for Reaching, Grasping, and PointingThe Neuroscientist, 16
-
P. Fattori, V. Raos, R. Breveglieri, A. Bosco, Nicoletta Marzocchi, C. Galletti (2010)
The Dorsomedial Pathway Is Not Just for Reaching: Grasping Neurons in the Medial Parieto-Occipital Cortex of the Macaque MonkeyThe Journal of Neuroscience, 30
-
S. Beurze, F. Lange, I. Toni, W. Medendorp (2007)
Integration of target and effector information in the human brain during reach planning.Journal of neurophysiology, 97 1
-
P. Fattori, M. Gamberini, D. Kutz, C. Galletti (2001)
‘Arm‐reaching’ neurons in the parietal area V6A of the macaque monkeyEuropean Journal of Neuroscience, 13
-
P. Fattori, D. Kutz, R. Breveglieri, Nicoletta Marzocchi, C. Galletti (2005)
Spatial tuning of reaching activity in the medial parieto‐occipital cortex (area V6A) of macaque monkeyEuropean Journal of Neuroscience, 22
-
Scott Grafton, M. Arbib, L. Fadiga, G. Rizzolatti (1996)
Localization of grasp representations in humans by positron emission tomographyExperimental Brain Research, 112
-
T. Jung, T. Jung, S. Makeig, Colin Humphries, Te-Won Lee, Te-Won Lee, M. Mckeown, V. Iragui, T. Sejnowski, T. Sejnowski (2000)
Removing electroencephalographic artifacts by blind source separation.Psychophysiology, 37 2
-
(2008)
World Medical Association Declaration of Helsinki. Ethical principles for medical research involving human subjects 2000 -
Rajan Bhattacharyya, S. Musallam, R. Andersen (2009)
Parietal reach region encodes reach depth using retinal disparity and vergence angle signals.Journal of neurophysiology, 102 2
-
J. Kalaska, S. Scott, P. Cisek, L. Sergio (1997)
Cortical control of reaching movementsCurrent Opinion in Neurobiology, 7
-
R. Oldfield (1971)
The assessment and analysis of handedness: the Edinburgh inventory.Neuropsychologia, 9 1
-
W. Medendorp, Herbert Goltz, T. Vilis, J. Crawford (2003)
Gaze-Centered Updating of Visual Space in Human Parietal CortexThe Journal of Neuroscience, 23
-
M. Davare, Michael Andres, G. Cosnard, J. Thonnard, E. Olivier (2006)
Dissociating the Role of Ventral and Dorsal Premotor Cortex in Precision GraspingThe Journal of Neuroscience, 26
-
C. Grefkes, G. Fink (2005)
REVIEW: The functional organization of the intraparietal sulcus in humans and monkeysJournal of Anatomy, 207
-
H. Shibasaki, M. Hallett (2006)
What is the Bereitschaftspotential?J. Neurosci., 17
-
C.L. MacKenzie, R.G. Marteniuk, C. Dugas, D. Liske, B. Eickmeier (1987)
3‐Dimensional movement trajectories in fitts task – implications for controlCereb. Cortex, 39
-
J. Connolly, M. Goodale, J. DeSouza, Ravi Menon, T. Vilis (2000)
A comparison of frontoparietal fMRI activation during anti-saccades and anti-pointing.Journal of neurophysiology, 84 3
-
Juan Fernandez-Ruiz, Juan Fernandez-Ruiz, Juan Fernandez-Ruiz, Herbert Goltz, Herbert Goltz, Herbert Goltz, Joseph DeSouza, Joseph DeSouza, T. Vilis, T. Vilis, J. Crawford, J. Crawford (2007)
Human parietal "reach region" primarily encodes intrinsic visual direction, not extrinsic movement direction, in a visual motor dissociation task.Cerebral cortex, 17 10
-
Teresa Sanctis, V. Tarantino, Elisa Straulino, C. Begliomini, U. Castiello (2013)
Co-Registering Kinematics and Evoked Related Potentials during Visually Guided Reach-to-Grasp MovementsPLoS ONE, 8
-
I. Levy, D. Schluppeck, D.J. Heeger, P.W. Glimcher (2007)
Specificity of human cortical areas for reaches and saccadesQ. J. Exp. Psychol. A, 27
-
Laura Shultz, B. Rose, J. Fink (2013)
Clinical NeuropsychologyApplied Neuropsychology: Adult, 20
-
D. Thoenissen, K. Zilles, I. Toni (2002)
Differential involvement of parietal and precentral regions in movement preparation and motor intentionAnnu. Rev. Neurosci., 22
-
T. Sanocki, H. Sedgwick, K. Shapiro, U. Castiello (2001)
The effects of abrupt onset of 2-D and 3-D distractors on prehension movements -
A. Kritikos, G.M. Jackson, S.R. Jackson (1998)
The influence of initial hand posture on the expression of prehension parametersJ. Neurosci., 119
-
Massimo Mascaro, A. Battaglia-Mayer, L. Nasi, D. Amit, R. Caminiti (2003)
The eye and the hand: neural mechanisms and network models for oculomanual coordination in parietal cortex.Cerebral cortex, 13 12
-
V. Raos, M.A. Umiltà, V. Gallese, L. Fogassi (2004)
Functional properties of grasping‐related neurons in the dorsal premotor area F2 of the macaque monkeyClin. Neurophysiol., 92
-
J. Kalaska, D. Crammond (1992)
Cerebral cortical mechanisms of reaching movements.Science, 255 5051
-
J. DeSouza, S. Dukelow, J. Gati, Ravi Menon, R. Andersen, T. Vilis (2000)
Eye Position Signal Modulates a Human Parietal Pointing Region during Memory-Guided MovementsThe Journal of Neuroscience, 20
-
S. Wise, D. Boussaoud, Paul Johnson, R. Caminiti (1997)
Premotor and parietal cortex: corticocortical connectivity and combinatorial computations.Annual review of neuroscience, 20
-
P. Fitts (1954)
The information capacity of the human motor system in controlling the amplitude of movement.Journal of experimental psychology, 47 6
-
J. Gallivan, C. Cavina-Pratesi, J. Culham (2009)
Is That within Reach? fMRI Reveals That the Human Superior Parieto-Occipital Cortex Encodes Objects Reachable by the HandThe Journal of Neuroscience, 29
-
C.S. Konen, R.E.B. Mruczek, J.L. Montoya, S. Kastner (2013)
Functional organization of human posterior parietal cortex: grasping‐ and reaching‐related activations relative to topographically organized cortexExp. Brain Res., 109
-
V. Raos, M. Umiltà, V. Gallese, L. Fogassi (2004)
Functional properties of grasping-related neurons in the dorsal premotor area F2 of the macaque monkey.Journal of neurophysiology, 92 4
-
I. Levy, D. Schluppeck, D. Heeger, P. Glimcher (2007)
Specificity of Human Cortical Areas for Reaches and SaccadesThe Journal of Neuroscience, 27
-
Christiane, Druml, Wolzt, Pleiner (2000)
World Medical Association Declaration of HelsinkiInternational Journal of Pharmaceutical Medicine, 14
-
E. Hoshi, H. Sawamura, J. Tanji (2005)
Neurons in the rostral cingulate motor area monitor multiple phases of visuomotor behavior with modest parametric selectivity.Journal of neurophysiology, 94 1
-
E. Hoshi, J. Tanji (2004)
Differential roles of neuronal activity in the supplementary and presupplementary motor areas: from information retrieval to motor planning and execution.Journal of neurophysiology, 92 6
-
D. Baldauf, H. Deubel (2010)
Attentional landscapes in reaching and graspingVision Research, 50
-
U. Castiello, C. Umilta (1992)
Splitting focal attention.Journal of experimental psychology. Human perception and performance, 18 3
-
A. Bosco, R. Breveglieri, E. Chinellato, C. Galletti, P. Fattori (2010)
Reaching Activity in the Medial Posterior Parietal Cortex of Monkeys Is Modulated by Visual FeedbackThe Journal of Neuroscience, 30
-
Christina Konen, Ryan Mruczek, Jessica Montoya, S. Kastner (2013)
Functional organization of human posterior parietal cortex: grasping- and reaching-related activations relative to topographically organized cortex.Journal of neurophysiology, 109 12
-
E. Hoshi, J. Tanji (2006)
Differential involvement of neurons in the dorsal and ventral premotor cortex during processing of visual signals for action planning.Journal of neurophysiology, 95 6
-
R. Kawashima, K. Satoh, H. Itoh, S. Ono, S. Furumoto, R. Gotoh, M. Koyama, S. Yoshioka, T. Takahashi, K. Takahashi, T. Yanagisawa, H. Fukuda (1996)
Functional anatomy of GO/NO‐GO discrimination and response selection – a PET study in manExp. Brain Res., 728
-
C. MacKenzie, R. Marteniuk, C. Dugas, D. Liske, B. Eickmeier (1987)
Three-Dimensional Movement Trajectories in Fitts' Task: Implications for ControlQuarterly Journal of Experimental Psychology, 39
- Publisher
- Wiley
- Copyright
- Copyright © 2014 Federation of European Neuroscience Societies and John Wiley & Sons Ltd
- ISSN
- 0953-816X
- eISSN
- 1460-9568
- DOI
- 10.1111/ejn.12512
- pmid
- 24593322
- Publisher site
- See Article on Publisher Site
Abstract
In both monkeys and humans, reaching‐related sensorimotor transformations involve the activation of a wide fronto‐parietal network. Recent neurophysiological evidence suggests that some components of this network host not only neurons encoding the direction of arm reaching movements, but also neurons whose involvement is modulated by the intrinsic features of an object (e.g. size and shape). To date, it has yet to be investigated whether a similar modulation is evident in the human reaching‐related areas. To fill this gap, we asked participants to reach towards either a small or a large object while kinematic and electroencephalographic signals were recorded. Behavioral results showed that the precision requirements were taken into account and the kinematics of reaching was modulated depending on the object size. Similarly, reaching‐related neural activity at the level of the posterior parietal and premotor cortices was modulated by the level of accuracy determined by object size. We therefore conclude that object size is engaged in the neural computations for reach planning and execution, consistent with the results from physiological studies in non‐human primates.
Journal
European Journal of Neuroscience – Wiley
Published: Jan 1, 2014
Keywords: ; ; ; ; ;