Locomotor activities as a way of inducing neuroplasticity: insights from conventional approaches and perspectives on eccentric exercises

Clos, Pierre; Lepers, Romuald; Garnier, Yoann M

doi:10.1007/s00421-020-04575-3

Cited by 11 publications

(7 citation statements)

References 104 publications

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“…Particularly, eccentric cycling (i.e., pedaling backward resisting the torque of an engine) has been serving as an alternative to conventional cycling rehabilitation among cardiorespiratory-limited patients ( Hoppeler, 2016 ). It has also been speculated that eccentric locomotor exercises could be a substitute to their concentric counterpart for neurorehabilitation (e.g., following a stroke; Clos et al, 2021 ). The rationale for this conjecture is as follows: while conventional locomotor exercises may trigger hemodynamic-related neuroplastic mechanisms ( Knaepen et al, 2010 ), eccentric locomotor exercises, by the repeated intense activation of motor neural networks, may promote neuroplasticity as well.…”

Section: Introductionmentioning

confidence: 99%

Corticospinal Excitability Is Lower During Eccentric Than Concentric Cycling in Men

et al. 2022

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How corticospinal excitability changes during eccentric locomotor exercise is unknown. In the present study, 13 volunteers performed 30-min strenuous concentric and eccentric cycling bouts at the same power output (60% concentric peak power output). Transcranial magnetic and electrical femoral nerve stimulations were applied at exercise onset (3rd min) and end (25th min). Motor-evoked potentials (MEPs) amplitude was measured for the rectus femoris (RF) and vastus lateralis (VL) muscles with surface electromyography (EMG) and expressed as a percentage of maximal M-wave amplitude (MMAX). EMG amplitude 100 ms prior to MEPs and the silent period duration were calculated. There was no change in any neural parameter during the exercises (all P > 0.24). VL and RF MMAX were unaffected by exercise modality (all P > 0.38). VL MEP amplitude was greater (26 ± 11.4 vs. 15.2 ± 7.7% MMAX; P = 0.008) during concentric than eccentric cycling whereas RF MEP amplitude was not different (24.4 ± 10.8 vs. 17.2 ± 9.8% MMAX; P = 0.051). While VL EMG was higher during concentric than eccentric cycling (P = 0.03), RF EMG showed no significant difference (P = 0.07). Similar silent period durations were found (RF: 120 ± 30 ms; VL: 114 ± 27 ms; all P > 0.61), but the silent period/MEP ratio was higher during eccentric than concentric cycling for both muscles (all P < 0.02). In conclusion, corticospinal excitability to the knee extensors is lower and relative silent period longer during eccentric than concentric cycling, yet both remained unaltered with time.

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Section: Introductionmentioning

confidence: 99%

Corticospinal Excitability Is Lower During Eccentric Than Concentric Cycling in Men

et al. 2022

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“…It could even be efficient to counteract neurodegeneration. 6 However, these benefits do not guarantee that patients are willing to engage in eccentric cycling exercise that is part of a rehabilitation program. Their adherence to exercise prescription is impaired by fatigue, defined as "a disabling symptom" that impedes physical and cognitive function.…”

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confidence: 99%

Concentric versus eccentric cycling at equal power output or effort perception: Neuromuscular alterations and muscle pain

Clos

Mater

Laroche

et al. 2021

Scandinavian Med Sci Sports

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Eccentric contractions (ie, active lengthening of the muscle) require less oxygen uptake than concentric contractions performed at same power output. 1 For this reason, eccentric cycle ergometers, on which patients resist the pedals driven backward by a motor, have been developed. Locomotor exercises (eg, cycling or running) differ from single-joint exercises because they require a more complex coordination and involve more muscle mass, affecting individuals' fatigability. 2 Among locomotor exercises, eccentric cycling differs from downhill running because it

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“…In humans too, physical exercise has been shown to promote ocular dominance plasticity in both normal sighted 56 and amblyopic 57 subjects. One crucial difference between physical activity and motor plasticity (either induced by learning or in response to a stroke) is that during physical activity, the E/I balance changes at the level of the motor cortex are still open to debate 58,59 . While studies clearly show that motor learning leads to a decrease in GABAergic inhibition in the human motor cortex [24][25][26][27] , changes induced by physical activity are not in consensus: although some studies defend a decrease in GABA 60,61 and increased excitability in corticospinal pathway [62][63][64] , others conclude decreased excitability [65][66][67] or higher GABA levels 68 .…”

Section: Discussionmentioning

confidence: 99%

Motor and Visual Plasticity interact in Adult Humans

Sari

Lunghi

2022

Preprint

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Neuroplasticity is maximal during development and declines in adulthood, especially for sensory cortices. On the contrary, the motor cortex retains plasticity throughout the lifespan. This difference has led to a modular view of plasticity in which different brain regions have their own plasticity mechanisms that do not depend or translate on others. Recent evidence indicates that visual and motor plasticity share common neural mechanisms (e.g. GABAergic inhibition), indicating a possible link between these different forms of plasticity, however the interaction between visual and motor plasticity has never been tested directly. Here we show that when visual and motor plasticity are elicited at the same time in adult humans, visual plasticity is impaired, while motor plasticity is spared. This unilateral interaction between visual and motor plasticity demonstrates a clear link between these two forms of plasticity. We conclude that local neuroplasticity in separate systems might be regulated globally, to preserve overall homeostasis in the brain.

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Locomotor activities as a way of inducing neuroplasticity: insights from conventional approaches and perspectives on eccentric exercises

Cited by 11 publications

References 104 publications

Corticospinal Excitability Is Lower During Eccentric Than Concentric Cycling in Men

Corticospinal Excitability Is Lower During Eccentric Than Concentric Cycling in Men

Concentric versus eccentric cycling at equal power output or effort perception: Neuromuscular alterations and muscle pain

Motor and Visual Plasticity interact in Adult Humans

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