Grip forces isolated from knowledge about object properties following a left parietal lesion
暂无分享,去创建一个
[1] A. Charpentier. Experimental study of some aspects of weight perception , 1891 .
[2] H. K. Wolfe,et al. Some effects of size on judgments of weight , 2022 .
[3] L Sjöberg,et al. Sensation sclaes in the size-weight illusion. , 1969, Scandinavian journal of psychology.
[4] H. Ross. When is a Weight not Illusory? , 1969, The Quarterly journal of experimental psychology.
[5] M. Spinner,et al. Management of Peripheral Nerve Problems , 1980 .
[6] A. Longoni,et al. Problems in the Assessment of Hand Preference , 1985, Cortex.
[7] Normative Data for the Hand Dynamometer , 1985 .
[8] S. C. Masin,et al. Experimental demonstration of the sensory basis of the size-weight illusion , 1988, Perception & psychophysics.
[9] A. P. Georgopoulos,et al. Functional magnetic resonance imaging of motor cortex: hemispheric asymmetry and handedness. , 1993, Science.
[10] S. Lederman,et al. The role of haptic versus visual volume cues in the size-weight illusion , 1993, Perception & psychophysics.
[11] N. Mai,et al. A computational procedure for movement analysis in handwriting , 1994, Journal of Neuroscience Methods.
[12] M. Petrides,et al. Neural correlates of mental transformations of the body-in-space. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[13] Roland S. Johansson,et al. Sensory Control of Dexterous Manipulation in Humans , 1996 .
[14] Peter Thier,et al. Parietal Lobe Contributions to Orientation in 3D Space , 1997 .
[15] M. Perenin,et al. Optic Ataxia and Unilateral Neglect: Clinical Evidence for Dissociable Spatial Functions in Posterior Parietal Cortex , 1997 .
[16] C Dohle,et al. Human anterior intraparietal area subserves prehension , 1998, Neurology.
[17] R T Knight,et al. Spatial deficits in ideomotor limb apraxia. A kinematic analysis of aiming movements. , 1999, Brain : a journal of neurology.
[18] M. Mon-Williams,et al. The size of the visual size cue used for programming manipulative forces during precision grip , 2000, Experimental Brain Research.
[19] J. Flanagan,et al. Independence of perceptual and sensorimotor predictions in the size–weight illusion , 2000, Nature Neuroscience.
[20] Georg Kerkhoff,et al. Spatial hemineglect in humans , 2001, Progress in Neurobiology.
[21] H. Topka,et al. Deficits of predictive grip force control during object manipulation in acute stroke , 2003, Journal of Neurology.
[22] Joachim Hermsdörfer,et al. Sensorimotor memory and grip force control: does grip force anticipate a self‐produced weight change when drinking with a straw from a cup? , 2003, The European journal of neuroscience.
[23] D. Nowak,et al. Grip force control during object manipulation in cerebral stroke , 2003, Clinical Neurophysiology.
[24] M. Rushworth,et al. The left parietal and premotor cortices: motor attention and selection , 2003, NeuroImage.
[25] R. Johansson,et al. Visual size cues in the programming of manipulative forces during precision grip , 2004, Experimental Brain Research.
[26] Leonardo Fogassi,et al. Motor functions of the parietal lobe , 2005, Current Opinion in Neurobiology.
[27] H. Carnahan,et al. Unilateral basal ganglia damage causes contralesional force control deficits: A case study , 2005, Neuropsychologia.
[28] Melvyn A Goodale,et al. Action Insight: The Role of the Dorsal Stream in the Perception of Grasping , 2005, Neuron.
[29] I. Kingma,et al. Scaling of lifting forces in relation to object size in whole body lifting , 2005, Ergonomics.
[30] Philippe A. Chouinard,et al. Role of the Primary Motor and Dorsal Premotor Cortices in the Anticipation of Forces during Object Lifting , 2005, The Journal of Neuroscience.
[31] C. Schönfeldt-Lecuona,et al. Sensorimotor memory for fingertip forces during object lifting: The role of the primary motor cortex , 2007, Neuropsychologia.