Unraveling Interlimb Interactions Underlying Bimanual Coordination

Ridderikhoff, Arne; Peper, C. E.; Beek, Peter J.

doi:10.1152/jn.01077.2004

Cited by 74 publications

(109 citation statements)

References 52 publications

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“…For instance, aVerent Wbers have no direct, crossed eVect on MUs of homologous muscle but only modulate the excitability of interneurons (Harrison and Zytnicki 1984;Arya et al 1991;McCrea 2001). Furthermore, behavioral data showed that aVerent information plays only an ancillary role in bilateral coupling (RidderikhoV et al 2005a;Spencer et al 2005). It was shown for both maximal and submaximal contractions that there is a common drive to homologous muscles that might be instigated by interneuronal connectivity between both motor areas (Oda 1997).…”

Section: Discussionmentioning

confidence: 99%

“…Interlimb coordination is governed by interactions between limbs arising from various constraints residing at diVerent levels of the motor system (Carson and Kelso 2004) and several studies have been carried out to pinpoint the neural structures involved (see Carson 2005, for a review). Recently, evidence has been presented that bilateral coupling primarily stems from shared eVerent information (RidderikhoV et al 2005a;Spencer et al 2005) and that aVerent processes only play an ancillary role. For instance, muscles that are normally coactivated may share a common drive arising from branched presynaptic Wbers or from presynaptic synchronization of last-order inputs (Carr et al 1994).…”

Section: Introductionmentioning

confidence: 99%

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Bilateral motor unit synchronization is functionally organized

Boonstra

Daffertshofer

et al. 2006

Exp Brain Res

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To elucidate the neural interactions underlying bimanual coordination, we investigated in 11 participants the bilateral coupling of homologous muscles in an isometric force production task involving fatiguing elbow Xexion and extension. We focused on changes in motor unit (MU) synchronization as evident in EMG recordings of relevant muscles. In contrast to a related study on leg muscles, the arm muscles did not exhibit MU synchronization around 16 Hz, consistent with our hypothesis that 16 Hz MU synchronization is linked to balance maintenance. As expected, bilateral MU synchronization was apparent between 8 and 12 Hz and increased with fatigue and more strongly so for extensor than for Xexor muscles. MU synchronization in that frequency band is interpreted in terms of common bilateral input and substantiates the idea that common input is functionally organized. Since these Wndings are consistent with the literature on mirror movements, they suggest that both phenomena may be related.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bilateral motor unit synchronization is functionally organized

Boonstra

Daffertshofer

et al. 2006

Exp Brain Res

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“…Research has revealed a pivotal role for proprioception (Baldissera, Cavaliari, Marini, & Tassone, 1991;Ridderikhoff, Peper & Beek, 2005) and tactile input (Aschersleben & Prinz, 1995;Buchanan & Ryu, 2005;Kelso, Fink, DeLaplain, & Carson, 2001) in stabilizing in-phase and anti-phase coordination. Clues as to the importance of visual perceptual information to bimanual coordination have also been found in interpersonal coordination tasks , where two people coordinate their movements, and unimanual tracking tasks (Wilson, Collins, & Bingham, 2005a,b), whereby performers coordinate their movements to an external signal, which also exhibit stable coordination patterns at 0 o and 180 o relative phase.…”

Section: Perceptual Constraintsmentioning

confidence: 99%

“…Some research has shown that with the loss of somatosensory feedback there is a decrease in the stability of anti-phase coordination, however, this loss does not keep the system from establishing and maintaining symmetric and asymmetric bimanual circle tracing patterns (Spencer, Ivry, Cattaert, & Semjen, 2005). Thus, one contribution to the coupling and stability characteristics of bimanual coordination clearly resides in forward commands and the interactions that arise from those commands as the result of shared neural pathways (Ridderikhoff et al, 2005). It should be noted that constraints related to crossed and uncrossed neural pathways should affect to varying extents all iso-and poly-rhythmic bimanual coordination patterns except the in-phase 1:1 coordination pattern.…”

Section: Action Constraintsmentioning

confidence: 99%

Perception and action influences on discrete and reciprocal bimanual coordination

2015

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For nearly four decades bimanual coordination, Ba prototype of complex motor skills^and apparent Bwindow into the design of the brain,^has been intensively studied. Past research has focused on describing and modeling the constraints that allow the production of some coordination patterns while limiting effective performance of other bimanual coordination patterns. More recently researchers have identified a coalition of perception-action constraints that hinder the effective production of bimanual skills. The result has been that given specially designed contexts where one or more of these constraints are minimized, bimanual skills once thought difficult, if not impossible, to effectively produce without very extensive practice can be executed effectively with little or no practice. The challenge is to understand how these contextual constraints interact to allow or inhibit the production of complex bimanual coordination skills. In addition, the factors affecting the stability of bimanual coordination tasks needs to be re-conceptualized in terms of perception-related constraints arising from the environmental context in which performance is conducted and action constraints resident in the neuromotor system.

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“…Periodic bimanual movements are often the focus of studies on basic organization of human actions [102,133,134,191,237]. A common finding in all these studies is that only two patterns of rhythmic bimanual coordination can be achieved without training: a stable 'in-phase' pattern and a less stable 'anti-phase' pattern.…”

Section: Inter and Intra-limb Synchronizationmentioning

confidence: 99%

Behavior generation for interpersonal coordination with virtual humans : on specifying, scheduling and realizing multimodal virtual human behavior

Welbergen¹

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Unraveling Interlimb Interactions Underlying Bimanual Coordination

Cited by 74 publications

References 52 publications

Bilateral motor unit synchronization is functionally organized

Bilateral motor unit synchronization is functionally organized

Perception and action influences on discrete and reciprocal bimanual coordination

Behavior generation for interpersonal coordination with virtual humans : on specifying, scheduling and realizing multimodal virtual human behavior

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