Frames of reference in action plan recall: influence of hand and handedness

Seegelke C, Hughes CML, Wunsch K, van der Wel R, Weigelt M (2015)
Experimental Brain Research 233(10): 2801-2812.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
Download
Es wurden keine Dateien hochgeladen. Nur Publikationsnachweis!
DOI
Autor*in
Seegelke, ChristianUniBi ; Hughes, Charmayne M. L.; Wunsch, Kathrin; van der Wel, Robrecht; Weigelt, MatthiasUniBi
Einrichtung
Fakultät für Psychologie und Sportwissenschaft > Abteilung Sportwissenschaft > Arbeitsbereich II - Neurokognition und Bewegung - Biomechanik
Fakultät für Psychologie und Sportwissenschaft > Abteilung für Psychologie > Arbeitseinheit 14 - Biopsychologie und Kognitive Neurowissenschaften
Center of Excellence - Cognitive Interaction Technology CITEC
Projekt
Deep Familiarization and Learning Grounded in Cooperative manual Action and Language - from Analysis to Implementation (FAMULA, LSP-02)
Abstract / Bemerkung
Evidence suggests that people are more likely to recall features of previous plans and use them for subsequent movements, rather than generating action plans from scratch for each movement. The information used for plan recall during object manipulation tasks is stored in extrinsic (object-centered) rather than intrinsic (body-centered) coordinates. The present study examined whether action plan recall processes are influenced by manual asymmetries. Right-handed (Experiment 1) and left-handed (Experiment 2) participants grasped a plunger from a home position using either the dominant or the non-dominant hand and placed it at one of the three target positions located at varying heights (home-to-target moves). Subsequently, they stepped sideways down from a podium (step-down podium), onto a podium (step-up podium), or without any podium present (no podium), before returning the plunger to the home platform using the same hand (target-back-to-home moves). The data show that, regardless of hand and handedness, participants grasped the plunger at similar heights during the home-to-target and target-back-to-home moves, even if they had to adopt quite different arm postures to do so. Thus, these findings indicate that the information used for plan recall processes in sequential object manipulation tasks is stored in extrinsic coordinates and in an effector-independent manner.
Stichworte
Posture; Frame of reference; Manual asymmetries; Grasping; Motor planning
Erscheinungsjahr
2015
Zeitschriftentitel
Experimental Brain Research
Band
233
Ausgabe
10
Seite(n)
2801-2812
ISSN
0014-4819
Page URI
https://pub.uni-bielefeld.de/record/2782626

Zitieren

Seegelke C, Hughes CML, Wunsch K, van der Wel R, Weigelt M. Frames of reference in action plan recall: influence of hand and handedness. Experimental Brain Research. 2015;233(10):2801-2812.
Seegelke, C., Hughes, C. M. L., Wunsch, K., van der Wel, R., & Weigelt, M. (2015). Frames of reference in action plan recall: influence of hand and handedness. Experimental Brain Research, 233(10), 2801-2812. https://doi.org/10.1007/s00221-015-4350-5
Seegelke, Christian, Hughes, Charmayne M. L., Wunsch, Kathrin, van der Wel, Robrecht, and Weigelt, Matthias. 2015. “Frames of reference in action plan recall: influence of hand and handedness”. Experimental Brain Research 233 (10): 2801-2812.
Seegelke, C., Hughes, C. M. L., Wunsch, K., van der Wel, R., and Weigelt, M. (2015). Frames of reference in action plan recall: influence of hand and handedness. Experimental Brain Research 233, 2801-2812.
Seegelke, C., et al., 2015. Frames of reference in action plan recall: influence of hand and handedness. Experimental Brain Research, 233(10), p 2801-2812.
C. Seegelke, et al., “Frames of reference in action plan recall: influence of hand and handedness”, Experimental Brain Research, vol. 233, 2015, pp. 2801-2812.
Seegelke, C., Hughes, C.M.L., Wunsch, K., van der Wel, R., Weigelt, M.: Frames of reference in action plan recall: influence of hand and handedness. Experimental Brain Research. 233, 2801-2812 (2015).
Seegelke, Christian, Hughes, Charmayne M. L., Wunsch, Kathrin, van der Wel, Robrecht, and Weigelt, Matthias. “Frames of reference in action plan recall: influence of hand and handedness”. Experimental Brain Research 233.10 (2015): 2801-2812.

1 Zitation in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Been there, done that, so what's next for arm and hand rehabilitation in stroke?
Winstein C, Varghese R., NeuroRehabilitation 43(1), 2018
PMID: 29991146

65 References

Daten bereitgestellt von Europe PubMed Central.

An object for an action, the same object for other actions: effects on hand shaping.
Ansuini C, Giosa L, Turella L, Altoe G, Castiello U., Exp Brain Res 185(1), 2007
PMID: 17909766
An investigation of the neural circuits underlying reaching and reach-to-grasp movements: from planning to execution.
Begliomini C, De Sanctis T, Marangon M, Tarantino V, Sartori L, Miotto D, Motta R, Stramare R, Castiello U., Front Hum Neurosci 8(), 2014
PMID: 25228872

N, 1967
Left-handers and right-handers compared on performance and preference measures of lateral dominance.
Borod JC, Caron HS, Koff E., Br J Psychol 75 ( Pt 2)(), 1984
PMID: 6733391
Manual asymmetries in reaching movement control. I: Study of right-handers.
Boulinguez P, Nougier V, Velay JL., Cortex 37(1), 2001
PMID: 11292156
Measuring handedness with questionnaires.
Bryden MP., Neuropsychologia 15(4-5), 1977
PMID: 896019
Where grasps are made reveals how grasps are planned: generation and recall of motor plans.
Cohen RG, Rosenbaum DA., Exp Brain Res 157(4), 2004
PMID: 15071711
Proprioceptive coordination of movement sequences: role of velocity and position information.
Cordo P, Carlton L, Bevan L, Carlton M, Kerr GK., J. Neurophysiol. 71(5), 1994
PMID: 8064352
Proprioceptive consequences of tendon vibration during movement.
Cordo P, Gurfinkel VS, Bevan L, Kerr GK., J. Neurophysiol. 74(4), 1995
PMID: 8989404
Fifty centuries of right-handedness: the historical record.
Coren S, Porac C., Science 198(4317), 1977
PMID: 335510

D, Tutor Quant Methods Psychol 1(), 2005
Categorization and validation of handedness using latent class analysis.
Dragovic M., Acta Neuropsychiatr 16(4), 2004
PMID: 26984309

D, 1996
The influence of target perturbation on manual aiming asymmetries in right-handers.
Elliott D, Lyons J, Chua R, Goodman D, Carson RG., Cortex 31(4), 1995
PMID: 8750026
Handedness and controlled movement.
Flowers K., Br J Psychol 66(1), 1975
PMID: 1131479
Object motor representation and reaching-grasping control.
Gentilucci M., Neuropsychologia 40(8), 2002
PMID: 11931918
Separate visual representations in the planning and control of action.
Glover S., Behav Brain Sci 27(1), 2004
PMID: 15481943
Distinct cortical networks support the planning and online control of reaching-to-grasp in humans.
Glover S, Wall MB, Smith AT., Eur. J. Neurosci. 35(6), 2012
PMID: 22429244
Task-dependent asymmetries in the utilization of proprioceptive feedback for goal-directed movement.
Goble DJ, Brown SH., Exp Brain Res 180(4), 2007
PMID: 17297548
The biological and behavioral basis of upper limb asymmetries in sensorimotor performance.
Goble DJ, Brown SH., Neurosci Biobehav Rev 32(3), 2007
PMID: 18160103
Upper limb asymmetries in the matching of proprioceptive versus visual targets.
Goble DJ, Brown SH., J. Neurophysiol. 99(6), 2008
PMID: 18436632
Development of upper limb proprioceptive accuracy in children and adolescents.
Goble DJ, Lewis CA, Hurvitz EA, Brown SH., Hum Mov Sci 24(2), 2005
PMID: 16043248
Upper limb asymmetries in the utilization of proprioceptive feedback.
Goble DJ, Lewis CA, Brown SH., Exp Brain Res 168(1-2), 2005
PMID: 16311728
Two distinct modes of control for object-directed action.
Goodale MA, Westwood DA, Milner AD., Prog. Brain Res. 144(), 2004
PMID: 14650845
Parieto-frontal connectivity during visually guided grasping.
Grol MJ, Majdandzic J, Stephan KE, Verhagen L, Dijkerman HC, Bekkering H, Verstraten FA, Toni I., J. Neurosci. 27(44), 2007
PMID: 17978028

O, Zeitschrift für Psychologie 220(), 2012

H, Q J Exp Psychol Sect A Hum Exp Psychol 34(), 1982
Functional between-hand differences and outflow eye position information.
Honda H., Q J Exp Psychol A 36(1), 1984
PMID: 6536038
Motor planning and execution in left- and right-handed individuals during a bimanual grasping and placing task.
Hughes CM, Reissig P, Seegelke C., Acta Psychol (Amst) 138(1), 2011
PMID: 21663882
Physically coupling two objects in a bimanual task alters kinematics but not end-state comfort.
Hughes CM, Haddad JM, Franz EA, Zelaznik HN, Ryu JH., Exp Brain Res 211(2), 2011
PMID: 21484393
The influence of initial and final precision on motor planning: individual differences in end-state comfort during unimanual grasping and placing.
Hughes CM, Seegelke C, Schack T., J Mot Behav 44(3), 2012
PMID: 22551086
Effects of stimulus cueing on bimanual grasp posture planning.
Hughes CM, Seegelke C, Reissig P, Schutz C., Exp Brain Res 219(3), 2012
PMID: 22562588
Symmetries in action: on the interactive nature of planning constraints for bimanual object manipulation.
Huhn JM 3rd, Schimpf KA, van der Wel RP., Exp Brain Res 232(12), 2014
PMID: 25160868
Behavioral evidence for left-hemisphere specialization of motor planning.
Janssen L, Meulenbroek RG, Steenbergen B., Exp Brain Res 209(1), 2010
PMID: 21184219

M, 1981
The timing of natural prehension movements.
Jeannerod M., J Mot Behav 16(3), 1984
PMID: 15151851
Constraints on human arm movement trajectories.
Marteniuk RG, MacKenzie CL, Jeannerod M, Athenes S, Dugas C., Can J Psychol 41(3), 1987
PMID: 3502905
Manual asymmetries in the preparation and control of goal-directed movements.
Mieschke PE, Elliott D, Helsen WF, Carson RG, Coull JA., Brain Cogn 45(1), 2001
PMID: 11161367
The assessment and analysis of handedness: the Edinburgh inventory.
Oldfield RC., Neuropsychologia 9(1), 1971
PMID: 5146491
On the other hand.
Perelle IB, Ehrman L., Behav. Genet. 35(3), 2005
PMID: 15864449
Dynamic dominance varies with handedness: reduced interlimb asymmetries in left-handers.
Przybyla A, Good DC, Sainburg RL., Exp Brain Res 216(3), 2011
PMID: 22113487
Frames of reference in perceptual-motor learning: evidence from a blind manual positioning task.
Rosenbaum DA, Chaiken SR., Psychol Res 65(2), 2001
PMID: 11414004

DA, Hum Mov Sci 11(), 1992
Remembered positions: stored locations or stored postures?
Rosenbaum DA, Meulenbroek RJ, Vaughan J., Exp Brain Res 124(4), 1999
PMID: 10090662
Grasping movement plans.
Rosenbaum DA, Halloran ES, Cohen RG., Psychon Bull Rev 13(5), 2006
PMID: 17328395
Cognition, action, and object manipulation.
Rosenbaum DA, Chapman KM, Weigelt M, Weiss DJ, van der Wel R., Psychol Bull 138(5), 2012
PMID: 22448912

EA, Q J Exp Psychol Sect A 41(), 1989
Kinematic analyses of manual asymmetries in visual aiming movements.
Roy EA, Kalbfleisch L, Elliott D., Brain Cogn 24(2), 1994
PMID: 8185899
Evidence for a dynamic-dominance hypothesis of handedness.
Sainburg RL., Exp Brain Res 142(2), 2001
PMID: 11807578
Convergent models of handedness and brain lateralization.
Sainburg RL., Front Psychol 5(), 2014
PMID: 25339923
Loss of proprioception produces deficits in interjoint coordination.
Sainburg RL, Poizner H, Ghez C., J. Neurophysiol. 70(5), 1993
PMID: 8294975
Control of limb dynamics in normal subjects and patients without proprioception.
Sainburg RL, Ghilardi MF, Poizner H, Ghez C., J. Neurophysiol. 73(2), 1995
PMID: 7760137
How objects are grasped: the interplay between affordances and end-goals.
Sartori L, Straulino E, Castiello U., PLoS ONE 6(9), 2011
PMID: 21980396
Influence of mechanical load on sequential effects.
Schutz C, Schack T., Exp Brain Res 228(4), 2013
PMID: 23727830
Observing end-state comfort favorable actions does not modulate action plan recall.
Seegelke C., Front Psychol 6(), 2015
PMID: 25688223
An investigation into manual asymmetries in grasp behavior and kinematics during an object manipulation task.
Seegelke C, Hughes CM, Schack T., Exp Brain Res 215(1), 2011
PMID: 21938544
Grasp posture planning during multi-segment object manipulation tasks - interaction between cognitive and biomechanical factors.
Seegelke C, Hughes CM, Knoblauch A, Schack T., Acta Psychol (Amst) 144(3), 2013
PMID: 24095853
Simulating my own or others action plans?--Motor representations, not visual representations are recalled in motor memory.
Seegelke C, Hughes CM, Schack T., PLoS ONE 8(12), 2013
PMID: 24367689
Manual (a)symmetries in grasp posture planning: a short review.
Seegelke C, Hughes CM, Schack T., Front Psychol 5(), 2014
PMID: 25566153
Accommodation to increased accuracy demands by the right and left hands.
Todor JI, Cisneros J., J Mot Behav 17(3), 1985
PMID: 15140687
Bimanual grasp planning reflects changing rather than fixed constraint dominance.
van der Wel RP, Rosenbaum DA., Exp Brain Res 205(3), 2010
PMID: 20658129
Hand path priming in manual obstacle avoidance: evidence for abstract spatiotemporal forms in human motor control.
van der Wel RP, Fleckenstein RM, Jax SA, Rosenbaum DA., J Exp Psychol Hum Percept Perform 33(5), 2007
PMID: 17924811
Returning home: location memory versus posture memory in object manipulation.
Weigelt M, Cohen R, Rosenbaum DA., Exp Brain Res 179(2), 2006
PMID: 17119941
Moving and memorizing: motor planning modulates the recency effect in serial and free recall.
Weigelt M, Rosenbaum DA, Huelshorst S, Schack T., Acta Psychol (Amst) 132(1), 2009
PMID: 19591968

HJ, Adv Eng Softw Workst 8(), 1986
Export

Markieren/ Markierung löschen
Markierte Publikationen

Open Data PUB

Web of Science

Dieser Datensatz im Web of Science®
Quellen

PMID: 26070901
PubMed | Europe PMC

Suchen in

Google Scholar