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Experimental Brain Research
Erschienen in: Experimental Brain Research 2/2008

01.01.2008 | Research Article

Failure to disrupt the ‘sensorimotor’ memory for lifting objects with a precision grip

verfasst von: Kelly J. Cole, Martin Potash, Clayton Peterson

Erschienen in: Experimental Brain Research | Ausgabe 2/2008

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Abstract

When repetitively lifting an object with mechanical properties that vary from lift-to-lift, the fingertip forces for gripping and lifting are influenced strongly by the previous lift, revealing a ‘sensorimotor’ memory. Two recent reports indicate that the sensorimotor memory for grip force is easily disrupted by an unrelated task like a strong pinch or vibration, even when the lift was performed with the hand contralateral to the vibration or preceding pinch. These findings indicate that this memory may reflect sensory input or muscle contraction levels, rather than object properties or the specific task of gripping and lifting. Here we report that the predictive scaling of lift force was not disrupted by conditioning tasks that featured exerting a vertical isometric force with the upper extremity. When subjects lifted a 2 N object repetitively the peak lift force rate was 26.4 N/s. The lift force rate increased to 36.1 N/s when the 2 N object was lifted (regardless of hand) after lifting the 8 N object with the right hand, which reveals the expected ‘sensorimotor’ memory. The lift force rate did not increase (24.8 vs. 26.4 N/s for the control condition) when a bout of isometric exertion (9.8 N) in the vertical direction with the distal right forearm preceded lifts of the 2 N object. This finding was confirmed with another isometric task designed to more closely mimic lifting an object with a precision grip. This difference in the sensitivity of grip versus lift force to a preceding isometric contraction indicates that separate sensorimotor memories contribute to the predictive scaling of the commands for gripping and lifting an object.
Literatur
Boudreau M, Brochier T, Pare M, Smith A (2001) Activity in ventral and dorsal premotor cortex in response to predictable force-pulse perturbations in a precision grip task. J Neurophysiol 86:1067–1078PubMed
Cole K, Rotella D (2002) Old age impairs the use of arbitrary visual cues for predictive control of fingertip forces during grasp. Exp Brain Res 143:35–41PubMedCrossRef
Cothros N, Wong J, Gribble P (2006) Are there distinct neural representations of object and limb dynamics? Exp Brain Res 173:689–697PubMedCrossRef
Davidson P, Wolpert D (2005) Widespread access to predictive models in the motor system: a short review. J Neural Eng 2:S313–S319PubMedCrossRef
Dubrowski A, Proteau L, Carnahan H (1999) Practice influences the coordination of visual and haptic inputs during grasping. Soc Neurosci Abstr 25:1913
Dugas C, Smith AM (1992) Responses of cerebellar purkinge cells to slip of a hand-held object. J Neurophysiol 67:483–495PubMed
Ehrsson H, Fagergren A, Forssberg H (2001) Differential fronto-parietal activation depending on force used in a precision grip task: an fMRI study. J Neurophysiol 85:2613–2623PubMed
Ehrsson H, Fagergren A, Gulyas B, Johansson R, Forssberg H (2000a) Cortical areas activated during manipulation: grasp actions, spatial actions and grasp stability actions. Soc Neurosci Abstr 26:1577
Ehrsson H, Fagergren A, Jonsson T, Westling G, Johansson R, Forssberg H (2000b) Cortical activity in precision versus power-grip tasks: an fMRI study. J Neurophysiol 83:528–536PubMed
Ehrsson H, Fagergren A, Johansson R, Forssberg H (2003) Evidence for the involvement of the posterior parietal cortex in coordination of fingertip forces for grasp stability in manipulation. J Neurophysiol 90:2978–2986PubMedCrossRef
Espinoza E, Smith AM (1990) Purkinje cell simple spike activity during grasping and lifting objects of different textures and weights. J Neurophysiol 64:698–714PubMed
Flanagan JR, Wing AM (1997) The role of internal models in motion planning and control: evidence from grip force adjustments during movements of hand-held loads. J Neurosci 17:1519–1528PubMed
Forssberg H, Eliasson AC, Kinoshita H, Johansson RS, Westling G (1991) Development of human precision grip. I: Basic coordination of force. Exp Brain Res 85:451–457PubMedCrossRef
Gordon AM, Forssberg H, Johansson RS, Westling G (1991a) Integration of sensory information during the programming of precision grip: comments on the contributions of size cues. Exper Brain Res 85:226–229
Gordon AM, Forssberg H, Johansson RS, Westling G (1991b) Visual size cues in the programming of manipulative forces during precision grip. Exp Brain Res 83:477–482PubMed
Gordon AM, Westling G, Cole KJ, Johansson RS (1993) Memory representations underlying motor commands used during manipulation of common and novel objects. J Neurophys 69:1789–1796
Gordon AM, Forssberg H, Iwasaki N (1994) Formation and lateralization of internal representations underlying motor commands during precision grip. Neuropsychologia 32:555–568PubMedCrossRef
Jenmalm P, Johansson RS (1997) Visual and somatosensory information about object shape control manipulative fingertip forces. J Neurosci 17:4486–4499PubMed
Jenmalm P, Dahlstedt S, Johansson R (2000) Visual and tactile information about object-curvature control fingertip forces and grasp kinematics in human dexterous manipulation. J Neurophys 84:2984–2997
Jenmalm P, Schmitz C, Forssberg H, Ehrsson H (2006) Lighter or heavier than predicted: neural correlates of corrective mechanisms during erroneously programmed lifts. J Neurosci 26:9015–9021PubMedCrossRef
Johansson RS, Cole KJ (1992) Sensory-motor coordination during grasping and manipulative actions. Curr Opin Neurobiol 2:815–823PubMedCrossRef
Johansson RS, Westling G (1984) Roles of glabrous skin receptors and sensorimotor memory in automatic control of precision grip when lifting rougher or more slippery objects. Exp Brain Res 56:550–554PubMedCrossRef
Johansson RS, Westling G (1988) Coordinated isometric muscle commands adequately and erroneously programmed for weight during lifting task with precision grip. Exp Brain Res 71:59–71PubMed
Kinoshita H, Oku N, Hashikawa K, Nishimura T (2000) Functional brain areas used for the lifting of objects using a precision grip: a PET study. Brain Res 857:119–130PubMedCrossRef
Kuhtz-Bushbeck J, Ehrsson H, Forssberg H (2001) Human brain activity in the control of fine static precision grip forces: an fMRI study. Eur J Neurosci 14:382–390CrossRef
Mason C, Hendrix C, Ebner T (2006) Purkinje cells signal hand shape and grasp force during reach-to-grasp in the monkey. J Neurophysiol 95:144–158PubMedCrossRef
Monzee J, Smith A (2004) Responses of cerebellar interpositus neurons to predictable perturbations applied to an object held in a precision grip. J Neurophysiol 91:1230–1239PubMedCrossRef
Nowak D, Rosenkranz K, Hermsdorfer J, Rothwell J (2004) Memory for fingertip forces: passive hand muscle vibration interferes with predictive grip force scaling. Exp Brain Res 156:444–450PubMedCrossRef
Quaney B, Rotella D, Cole K (2003) Sensorimotor memory for fingertip forces: evidence for a task-independent motor memory. J Neurosci 23:1981–1986PubMed
Salimi I, Brochier T, Smith AM (1999a) Neuronal activity in somatosensory cortex of monkeys using a precision grip. I. Receptive fields and discharge patterns. J Neurophysiol 81:825–834PubMed
Salimi I, Brochier T, Smith AM (1999b) Neuronal activity in somatosensory cortex of monkeys using a precision grip. II. Responses to object texture and weights. J Neurophysiol 81:835–844PubMed
Salimi I, Brochier T, Smith AM (1999c) Neuronal activity in somatosensory cortex of monkeys using a precision grip. III. Responses to altered friction perturbations. J Neurophysiol 81:845–857PubMed
Schmitz C, Jenmalm P, Ehrsson H, Forssberg H (2005) Brain activity during predictable and unpredictable weight changes when lifting objects. J. Neurophysiol 93:1498–1509PubMedCrossRef
Sinnaeve A, Dubrowski A, Carnahan H (2002) Evidence for the use of both iconic and long-term memory systems for friction when grasping. Soc Neurosci Abstr 28:2684
Metadaten
Titel
Failure to disrupt the ‘sensorimotor’ memory for lifting objects with a precision grip
verfasst von
Kelly J. Cole
Martin Potash
Clayton Peterson
Publikationsdatum
01.01.2008
Verlag
Springer-Verlag
Erschienen in
Experimental Brain Research / Ausgabe 2/2008
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI
https://doi.org/10.1007/s00221-007-1088-8

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