Coordination of Locomotion with Voluntary Movements in Humans

Ivanenko, Yuri P.; Cappellini, Germana; Dominici, Nadia; Poppele, R. E.; Lacquaniti, Francesco

doi:10.1523/jneurosci.1327-05.2005

Cited by 371 publications

(428 citation statements)

References 52 publications

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“…It is believed that the number of synergies used by a human being when walking is between 4 and 6 (Allen and Neptune, 2012;Clark et al, 2010;De Groote et al, 2014;Ivanenko et al, 2005Ivanenko et al, , 2004Oliveira et al, 2014). The Variance Accounted For (VAF) between the reconstructed and the original signals is evaluated to select the proper number of modules to be used when factorizing the signals.…”

Section: Introductionmentioning

confidence: 99%

“…It is reported that there are similarities in the muscle synergies when performing the same movement across subjects. Several authors reported muscle synergies when walking (Clark et al, 2010;Dominici et al, 2011;Ivanenko et al, 2004;Neptune et al, 2009;Oliveira et al, 2014), walking with perturbations (Ivanenko et al, 2005) or performing other tasks (Rugy et al, 2013). Clark et al (2010) applied the muscle synergy analysis in post-stroke injured subjects.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of muscle synergies and activation–deactivation patterns in subjects with anterior cruciate ligament deficiency during walking

Serrancolí

Monllau

Font-Llagunes

2016

Clinical Biomechanics

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Background: The knowledge of muscle activation patterns when doing a certain task in subjects with anterior cruciate ligament deficiency could help to improve their rehabilitation treatment. The goal of this study is to identify differences in such patterns between anterior cruciate ligament-deficient and healthy subjects during walking.Methods: Electromyographic data for eight muscles were measured in a sample of eighteen subjects with anterior cruciate ligament deficiency, in both injured (Ipsilateral group) and non-injured (Contralateral group) legs, and a sample of ten healthy subjects (Control group). The analysis was carried out at two levels: activation-deactivation patterns and muscle synergies. Muscle synergy components were calculated using a non-negative matrix factorization algorithm. Findings:The results showed that there was a higher co-contraction in injured than in healthy subjects. Although all muscles are activated similarly since all subjects developed the same task (walking), some differences could be observed among analyzed groups.Interpretation: The observed differences in the synergy components of injured subjects suggested that those individuals alter muscle activation patterns to stabilize the knee joint. This analysis could provide valuable information for the physiotherapist to identify alterations in muscle activation patterns during the follow-up of the subject's rehabilitation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Analysis of muscle synergies and activation–deactivation patterns in subjects with anterior cruciate ligament deficiency during walking

Serrancolí

Monllau

Font-Llagunes

2016

Clinical Biomechanics

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“…The notion of multi-muscle synergies has been invoked in many studies of postural tasks (Krishnamoorthy et al 2003a(Krishnamoorthy et al ,b, 2004Ivanenko et al 2005Ivanenko et al , 2006 ; Ting and Macpherson 2005;Wang et al 2005Wang et al , 2006Torres-Oviedo et al 2006;Danna-Dos-Santos et al 2007) as a means of reducing (but not eliminating) the notorious redundancy of the multi-muscle system (cf. Bernstein 1967).…”

Section: Introductionmentioning

confidence: 99%

“…At the lower level, muscles form groups, within which their levels of activation co-vary across a wide range of tasks. Such groups have been referred to as muscle modes (M-modes, Krishnamoorthy et al 2003a,b) or muscle synergies (Ivanenko et al 2004(Ivanenko et al , 2005(Ivanenko et al , 2006Ting and Macpherson 2005;Torres-Oviedo and Ting 2007;Saltiel et al 2001;D'Avela et al 2005). At the upper level, the M-modes are considered as the elemental variables, and their co-variation is organized in a task-specific manner to stabilize an important performance variable.…”

Section: Introductionmentioning

confidence: 99%

Multi-muscle synergies in an unusual postural task: quick shear force production

2008

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We considered a hypothetical two-level hierarchy participating in the control of vertical posture. The framework of the uncontrolled manifold (UCM) hypothesis was used to explore the muscle groupings (M-modes) and multi-M-mode synergies involved in stabilization of a time profile of the shear force in the anterior-posterior direction. Standing subjects were asked to produce pulses of shear force into a target using visual feedback while trying to minimize the shift of the center of pressure (COP). Principal component analysis applied to integrated muscle activation indices identified three Mmodes. The composition of the M-modes was similar across subjects and the two directions of the shear force pulse. It differed from the composition of M-modes described in earlier studies of more natural actions associated with large COP shifts. Further, the trial-to-trial M-mode variance was partitioned into two components: one component that does not affect a particular performance variable (V UCM ), and its orthogonal component (V ORT ). We argued that there is a multi-M-mode synergy stabilizing this particular performance variable if V UCM is higher than V ORT . Overall, we found a multi-M-mode synergy stabilizing both shear force and COP coordinate. For the shear force, this synergy was strong for the backward force pulses and non significant for the forward pulses. An opposite result was found for the COP coordinate: the synergy was stronger for the forward force pulses. The study shows that M-mode composition can change in a task-specific way and that two different performance variables can be stabilized using the same set of elemental variables (Mmodes). The different dependences of the ΔV indices for the shear force and COP coordinate on the force pulse direction supports applicability of the principle of superposition (separate controllers for different performance variables) to the control of different mechanical variables in postural tasks. The M-mode composition allows a natural mechanical interpretation.

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“…The coordination of the many muscles involved in standing has been viewed as an example of muscle synergies, large groups of muscles united by a common motor goal (Bernstein 1967;Ivanenko et al 2004Ivanenko et al , 2005Ting and Macpherson 2005).…”

Section: Introductionmentioning

confidence: 99%

Learning effects on muscle modes and multi-mode postural synergies

et al. 2007

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We used the framework of the uncontrolled manifold hypothesis to explore the effects of practice on the composition of muscle groups (M-modes) and multi-M-mode synergies stabilizing the location of the center of pressure (COP). In particular, we tested a hypothesis that practice could lead to a transition from co-contraction muscle activation patterns to reciprocal patterns. We also tested a hypothesis that new sets of M-modes would form stronger synergies stabilizing COP location. Subjects practiced load release tasks for five days while standing on a board with a narrow support surface ("unstable board"). Their M-modes and indices of multi-M-mode synergies were computed during standing without instability and during standing on an unstable board before practice, in the middle of practice, and at the end of practice. During standing without instability, subjects showed two consistent M-modes uniting dorsal and ventral muscles of the body respectively (reciprocal modes). While standing on an unstable board, prior to practice, subjects commonly showed M-modes uniting muscle pairs with opposing actions at major leg joints -co-contraction modes. Such sets of M-modes failed to stabilize the COP location in the anterior-posterior direction. Practice led to better task performance reflected in fewer incidences of lost balance. This was accompanied by a drop in the occurrence of co-contraction M-modes and the emergence of multi-mode synergies stabilizing the COP location. We conclude that the central nervous system uses flexible sets of elemental variables (modes) to ensure stable trajectories of important performance variables (such as COP location). Practice can lead to adjustments in both the composition of M-modes and M-mode covariation patterns resulting in stronger synergies stabilizing COP location.

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Coordination of Locomotion with Voluntary Movements in Humans

Cited by 371 publications

References 52 publications

Analysis of muscle synergies and activation–deactivation patterns in subjects with anterior cruciate ligament deficiency during walking

Analysis of muscle synergies and activation–deactivation patterns in subjects with anterior cruciate ligament deficiency during walking

Multi-muscle synergies in an unusual postural task: quick shear force production

Learning effects on muscle modes and multi-mode postural synergies

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