nach oben

Experimental Brain Research

Erschienen in:

01.03.2016 | Research Article

Interference effects between manual and oral motor skills

verfasst von: Marie-Hélène Gagné, Henri Cohen

Erschienen in: Experimental Brain Research | Ausgabe 3/2016

Einloggen, um Zugang zu erhalten

Abstract

Consolidation of a motor skill is characterized by spontaneous improvement in performance between practice sessions. These offline gains can be eliminated if another skill is introduced soon afterward—a phenomenon called retroactive interference. Interference effects have been found in studies using two similar tasks involving the same motor effectors in a manual mode. The present study aimed to determine the extent to which differences in motor production mode modulate interference in skill learning. Healthy participants were assigned to one of three conditions and trained on a finger opposition sequence (FOS) learning task. All subjects were tested 24 h later on the original FOS learning task. Control subjects who were not exposed to a secondary learning task exhibited the expected offline gains after 24 h. Subjects who immediately learned a secondary task after the FOS training, either in the same manual mode (French Sign Language) or in an oral mode (CVC syllables), did not show any offline gains. Interestingly, the amount of interference was equivalent in the manual and oral learning conditions. The results reveal that interference effects in motor skill learning can occur when different effectors are involved in the primary and secondary tasks. The sequence processing abilities of the basal ganglia appear to play a major role in these interference effects.

Abe M, Schambra H, Wassermann EM, Luckenbaugh D, Schweighofer N, Cohen LG (2011) Reward improves long-term retention of a motor memory through induction of offline memory gains. Curr Biol 21(7):557–562PubMedCentralCrossRefPubMed

Ackermann H, Riecker A (2010) Cerebral control of motor aspects of speech production: neurophysiological and functional imaging data. In: Maassen B, van Lieshout P (eds) Speech motor control: new developments in basic and applied research. Oxford University Press, Oxford, pp 117–134CrossRef

Albouy G, Ruby P, Phillips C, Luxen A, Peigneux P, Maquet P (2006) Implicit oculomotor sequence learning in humans: time course of offline processing. Brain Res 1090(1):163–171CrossRefPubMed

Aldridge J, Berridge KC (1998) Coding of serial order by neostriatal neurons: a “natural action” approach to movement sequence. J Neurosci 18(7):2777–2787PubMed

Arima M, Shimodozono M, Etoh S, Tanaka N, Kawahira K (2010) Examining procedural consolidation with visuomotor learning in the lower limb. Int J Neurosci 120(5):344–351CrossRefPubMed

Balas M, Netser S, Giladi N, Karni A (2007a) Interference to consolidation phase gains in learning a novel movement sequence by handwriting: dependence on laterality and the level of experience with the written sequence. Exp Brain Res 180(2):237–246CrossRefPubMed

Balas M, Roitenberg N, Giladi N, Karni A (2007b) When practice does not make perfect: well-practiced handwriting interferes with the consolidation phase gains in learning a movement sequence. Exp Brain Res 178(4):499–508CrossRefPubMed

Barnes TD, Kubota Y, Hu D, Jin DZ, Graybiel AM (2005) Activity of striatal neurons reflects dynamic encoding and recoding of procedural memories. Nature 437(7062):1158–1161CrossRefPubMed

Berridge KC, Whishaw IQ (1992) Cortex, striatum and cerebellum: control of serial order in a grooming sequence. Exp Brain Res 90(2):275–290CrossRefPubMed

Brashers-Krug T, Shadmehr R, Bizzi E (1996) Consolidation in human motor memory. Nature 382(6588):252–255CrossRefPubMed

Caithness G, Osu R, Bays P, Chase H, Klassen J, Kawato M, Wolpert DM, Flanagan JR (2004) Failure to consolidate the consolidation theory of learning for sensorimotor adaptation tasks. J Neurosci 24(40):8662–8671CrossRefPubMed

Clark GM, Lum JAG, Ullman MT (2014) A meta-analysis and meta-regression of serial reaction time task performance in Parkinson’s disease. Neuropsychology 28(6):945–958CrossRefPubMed

Clerget E, Poncin W, Fadiga L, Olivier E (2012) Role of Broca’s area in implicit motor skill learning: evidence from continuous theta-burst magnetic stimulation. J Cogn Neurosci 24(1):80–92CrossRefPubMed

Cohen H, Pourcher E (2007) Intact encoding, impaired consolidation in procedural learning in Parkinson’s disease. Exp Brain Res 179(4):703–708CrossRefPubMed

Conway CM, Pisoni DB (2008) Neurocognitive basis of implicit learning of sequential structure and its relation to language processing. Ann N Y Acad Sci 1145:113–131PubMedCentralCrossRefPubMed

Costa RM, Cohen D, Nicolelis MAL (2004) Differential corticostriatal plasticity during fast and slow motor skill learning in mice. Curr Biol 14(13):1124–1134CrossRefPubMed

Coynel D, Marrelec G, Perlbarg V, Pélégrini-Issac M, Van de Moortele PF, Ugurbil K, Doyon J, Benali H, Lehéricy S (2010) Dynamics of motor-related functional integration during motor sequence learning. Neuroimage 49(1):759–766PubMedCentralCrossRefPubMed

Dorfberger S, Adi-Japha E, Karni A (2007) Reduced susceptibility to interference in the consolidation of motor memory before adolescence. PLoS One 2(2):e240. doi:10.1371/journal.pone.0000240 PubMedCentralCrossRefPubMed

Doyon J, Gaudreau D, Laforce RL Jr, Castonguay M, Bedard PJ, Bedard F, Bouchard JP (1997) Role of the striatum, cerebellum, and frontal lobes in the learning of a visuomotor sequence. Brain Cogn 34(2):218–245CrossRefPubMed

Doyon J, Penhune V, Ungerleider LG (2003) Distinct contribution of the cortico-striatal and cortico-cerebellar systems to motor skill learning. Neuropsychologia 41(3):252–262CrossRefPubMed

Doyon J, Bellec P, Amsel R, Penhune V, Monchi O, Carrier J, Lehéricy S, Benali H (2009) Contributions of the basal ganglia and functionally related brain structures to motor learning. Behav Brain Res 199(1):61–75CrossRefPubMed

Dronkers NF, Plaisant O, Iba-Zizen MT, Cabanis EA (2007) Paul Broca’s historic cases: high resolution MR imaging of the brains of Leborgne and Lelong. Brain 130(5):1432–1441CrossRefPubMed

Dudai Y (2004) The neurobiology of consolidations, or, how stable is the engram? Annu Rev Psychol 55:51–86CrossRefPubMed

Fadiga L, Craighero L (2006) Hand actions and speech representation in Broca’s area. Cortex 42(4):486–490CrossRefPubMed

Fischer S, Born J (2009) Anticipated reward enhances offline learning during sleep. J Exp Psychol Learn Mem Cogn 35(6):1586–1593CrossRefPubMed

Fonseca R, Nägerl UV, Morris RGM, Bonhoeffer T (2004) Competing for memory: hippocampal LTP under regimes of reduced protein synthesis. Neuron 44(6):1011–1020PubMed

Forkstam C, Hagoort P, Fernandez G, Ingvar M, Petersson KM (2006) Neural correlates of artificial syntactic structure classification. Neuroimage 32(2):956–967CrossRefPubMed

Guadagnoli MA, Lee TD (2004) Challenge point: a framework for conceptualizing the effects of various practice conditions in motor learning. J Mot Behav 36(2):212–224CrossRefPubMed

Hauptmann B, Karni A (2002) From primed to learn: the saturation of repetition priming and the induction of long-term memory. Cogn Brain Res 13(3):313–322CrossRef

Karni A, Sagi D (1993) The time course of learning a visual skill. Nature 365(6443):250–252CrossRefPubMed

Karni A, Meyer G, Jezzard P, Adams MM, Turner R, Ungerleider LG (1995) Functional MRI evidence for adult motor cortex plasticity during motor skill learning. Nature 377(6545):155–158CrossRefPubMed

Korman M, Doyon J, Doljansky J, Carrier J, Dagan Y, Karni A (2007) Daytime sleep condenses the time course of motor memory consolidation. Nat Neurosci 10(9):1206–1213CrossRefPubMed

Lehéricy S, Benali H, Van De Moortele PF, Pélégrini-Issac M, Waechter T, Ugurbil K, Doyon J (2005) Distinct basal ganglia territories are engaged in early and advanced motor sequence learning. Proc Natl Acad Sci USA 102(35):12566–12571PubMedCentralCrossRefPubMed

McGaugh JL (2000) Memory—a century of consolidation. Science 287(5451):248–251CrossRefPubMed

Meital N, Korinth SP, Karni A (2013) Plasticity in the adult oculomotor system: offline consolidation phase gains in saccade sequence learning. Brain Res 1528:42–48CrossRefPubMed

Miyachi S, Hikosaka O, Miyashita K, Karadi Z, Rand MK (1997) Differential roles of monkey striatum in learning of sequential hand movement. Exp Brain Res 115(1):1–5CrossRefPubMed

Miyachi S, Hikosaka O, Lu X (2002) Differential activation of monkey striatal neurons in the early and late stages of procedural learning. Exp Brain Res 146(1):122–126CrossRefPubMed

Paradis M (2004) A neurolinguistic theory of bilingualism. John Benjamins Publishing Company, AmsterdamCrossRef

Poldrack RA, Prabhakaran V, Seger CA, Gabrieli JDE (1999) Striatal activation during acquisition of a cognitive skill. Neuropsychology 13(4):564–574CrossRefPubMed

Rioult-Pedotti MS, Donoghue JP, Dunaevsky A (2007) Plasticity of the synaptic modification range. J Neurophysiol 98(6):3688–3695CrossRefPubMed

Robertson EM, Pascual-Leone A, Miall RC (2004) Current concepts in procedural consolidation. Nat Rev Neurosci 5(7):576–582CrossRefPubMed

Shadmehr R, Brashers-Krug T (1997) Functional stages in the formation of human long-term motor memory. J Neurosci 17(1):409–419PubMed

Stickgold R (2005) Sleep-dependent memory consolidation. Nature 437(7063):1272–1278CrossRefPubMed

Tong C, Wolpert DM, Flanagan JR (2002) Kinematics and dynamics are not represented independently in motor working memory: evidence from an interference study. J Neurosci 22(3):1108–1113PubMed

Ullman MT (2001) A neurocognitive perspective on language: the declarative/procedural model. Nat Rev Neurosci 2(10):717–726CrossRefPubMed

Ullman MT, Corkin S, Coppola M, Hickok G, Growdon JH, Koroshetz WJ, Pinker S (1997) A neural dissociation within language: evidence that the mental dictionary is part of declarative memory, and that grammatical rules are processed by the procedural system. J Cogn Neurosci 9(2):266–276CrossRefPubMed

Walker MP, Brakefield T, Hobson JA, Stickgold R (2003) Dissociable stages of human memory consolidation and reconsolidation. Nature 425(6958):616–620CrossRefPubMed

Wildgruber D, Ackermann H, Grodd W (2001) Differential contributions of motor cortex, basal ganglia, and cerebellum to speech motor control: effects of syllable repetition rate evaluated by fMRI. Neuroimage 13(1):101–109CrossRefPubMed

Zach N, Inbar D, Grinvald Y, Vaadia E (2012) Single neurons in M1 and premotor cortex directly reflect behavioral interference. PLoS One 7(3):e32986PubMedCentralCrossRefPubMed

Titel: Interference effects between manual and oral motor skills
verfasst von: Marie-Hélène Gagné
Henri Cohen
Publikationsdatum: 01.03.2016
Verlag: Springer Berlin Heidelberg
Erschienen in: Experimental Brain Research / Ausgabe 3/2016
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI: https://doi.org/10.1007/s00221-015-4508-1

Leitlinien kompakt für die Neurologie

Mit medbee Pocketcards sicher entscheiden.

^{Seit 2022 gehört die medbee GmbH zum Springer Medizin Verlag}

Kostenlos registrieren

Neu im Fachgebiet Neurologie

Hirnblutung unter DOAK und VKA ähnlich bedrohlich

17.05.2024 Direkte orale Antikoagulanzien Nachrichten

Kommt es zu einer nichttraumatischen Hirnblutung, spielt es keine große Rolle, ob die Betroffenen zuvor direkt wirksame orale Antikoagulanzien oder Marcumar bekommen haben: Die Prognose ist ähnlich schlecht.

Thrombektomie auch bei großen Infarkten von Vorteil

16.05.2024 Ischämischer Schlaganfall Nachrichten

Auch ein sehr ausgedehnter ischämischer Schlaganfall scheint an sich kein Grund zu sein, von einer mechanischen Thrombektomie abzusehen. Dafür spricht die LASTE-Studie, an der Patienten und Patientinnen mit einem ASPECTS von maximal 5 beteiligt waren.

Schwindelursache: Massagepistole lässt Otholiten tanzen

14.05.2024 Benigner Lagerungsschwindel Nachrichten

Wenn jüngere Menschen über ständig rezidivierenden Lagerungsschwindel klagen, könnte eine Massagepistole der Auslöser sein. In JAMA Otolaryngology warnt ein Team vor der Anwendung hochpotenter Geräte im Bereich des Nackens.

Schützt Olivenöl vor dem Tod durch Demenz?

10.05.2024 Morbus Alzheimer Nachrichten

Konsumieren Menschen täglich 7 Gramm Olivenöl, ist ihr Risiko, an einer Demenz zu sterben, um mehr als ein Viertel reduziert – und dies weitgehend unabhängig von ihrer sonstigen Ernährung. Dafür sprechen Auswertungen zweier großer US-Studien.

Update Neurologie

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Die Highlights vom Kongress des American College of Cardiology 2024

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 3/2016

Directional specificity of postural threat on anticipatory postural adjustments during lateral leg raising

The effects of body exposure on self-body image and esthetic appreciation in anorexia nervosa

Decreased face primary motor cortex (face-M1) excitability induced by noxious stimulation of the rat molar tooth pulp is dependent on the functional integrity of medullary astrocytes

Sensorimotor integration is enhanced in dancers and musicians

Determining thresholds using adaptive procedures and psychometric fits: evaluating efficiency using theory, simulations, and human experiments