Role of across-muscle motor unit synchrony for the coordination of forces

Santello, Marco; Fuglevand, Andrew J.

doi:10.1007/s00221-004-1975-1

Cited by 43 publications

(41 citation statements)

References 23 publications

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“…They include the divergence of corticospinal axons to reach more than one motoneuron pool (e.g., Cheney 1978, 1980;Shinoda et al 1981; for review, see Lemon 2008) and the major overlapping and intermingling of cortical output zones to individual upper limb muscles documented in nonhuman primates (e.g., Landgren et al 1962;Rathelot and Strick 2006;Schieber and Hibbard 1993). As a result of such factors, there is short-term synchronization of motor unit discharge of functionally linked hand muscles or across muscle compartments of the multitendoned extrinsic hand muscles (Hockensmith et al 2005;Johnston et al 2005;Nordstrom et al 1992;Reilly et al 2004;Santello and Fuglevand 2004;Winges and Santello 2004). There is also evidence for coherence between cortical activity and forearm EMG (e.g., Baker et al 1997;Brown 2000;Conway et al 1995;Gross et al 2000;Salenius and Hari 2003) and coherent forces across different digits during voluntary tasks (e.g., Kilbreath et al 2002;Li 2002;Rearick and Santello 2002;Santello and Soechting 2000;Yu et al 2007).…”

Section: Mechanisms Of Force Enslavement and Force Deficitmentioning

confidence: 99%

Limits to the Control of the Human Thumb and Fingers in Flexion and Extension

Duinen

Gandevia

2010

Journal of Neurophysiology

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Section: Mechanisms Of Force Enslavement and Force Deficitmentioning

confidence: 99%

Limits to the Control of the Human Thumb and Fingers in Flexion and Extension

Duinen

Gandevia

2010

Journal of Neurophysiology

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“…We addressed this issue by studying an object-hold task requiring fine coordination of digit forces. We focused on the most basic unit of force control (i.e., single motor units) and the phenomenon of common synaptic input to motor neuron pools of hand muscles as this mechanism might play an important role in the coordination of the digits (Reilly and Schieber 2003;Reilly et al 2004;Santello and Fuglevand 2004).…”

Section: Introductionmentioning

confidence: 99%

Muscle-Pair Specific Distribution and Grip-Type Modulation of Neural Common Input to Extrinsic Digit Flexors

Winges¹,

Johnston²,

Santello³

2006

Journal of Neurophysiology

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. Musclepair specific distribution and grip-type modulation of neural common input to extrinsic digit flexors. J Neurophysiol 96: 1258 -1266, 2006. First published May 24, 2006 doi:10.1152/jn.00327.2006. To gain insight into the synergistic control of hand muscles, we have recently quantified the strength of correlated neural activity across motor units from extrinsic digit flexors during a five-digit object-hold task. We found stronger synchrony and coherence across motor units from thumb and index finger flexor muscle compartment than between the thumb flexor and other finger flexor muscle compartments. The present study of two-digit object hold was designed to determine the extent to which such distribution of common input among thumbfinger flexor muscle compartments, revealed by holding an object with five digits, is preserved when varying the functional role of a given digit pair. We recorded normal force exerted by the digits and electrical activity of single motor units from muscle flexor pollicis longus (FPL) and two compartments of the m. flexor digitorum profundus (FDP2 and FDP3; index and middle finger, respectively). Consistent with our previous results from five-digit grasping, synchrony and coherence across motor units from FPL-FDP2 was significantly stronger than in FPL-FDP3 during object hold with two digits [common input strength: 0.49 Ϯ 0.02 and 0.35 Ϯ 0.02 (means Ϯ SE), respectively; peak coherence: 0.0054 and 0.0038, respectively]. This suggests that the distribution of common neural input is muscle-pair specific regardless of grip type. However, the strength of coherence, but not synchrony, was significantly stronger in two-versus five-digit object hold for both muscle combinations, suggesting the periodicity of common input is sensitive to grip type.

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“…The coupling of individual motor units, in particular, is traditionally measured with coherence analysis derived from the discharge times of a pair of concurrently active motor units, termed motor unit coherence (Farmer et al 1993;Kakuda et al 1999;Kilner et al 2002). This approach may be problematic, however, as pairwise correlations between the discharges of two neurons may significantly underestimate correlated activity across entire populations of neurons (Negro and Farina 2011;Santello and Fuglevand 2004;Schneidman et al 2006). Because surface electromyograms (EMGs) reflect activity from many motor units, coherence measures derived from pairs of surface EMGs recorded over synergist muscles (i.e., EMG-EMG coherence) have been used to provide a more representative measure of rhythmic activity across muscles Farmer et al 2007;Kilner et al 1999).…”

mentioning

confidence: 99%