Pierre Clos scite author profile

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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Neuromuscular and Perceptual Responses to Sub-Maximal Eccentric Cycling

Clos

Laroche

Stapley

et al. 2019

Front. Physiol.

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Objective Eccentric (ECC) cycle-ergometers have recently become commercially-available, offering a novel method for rehabilitation training. Many studies have reported that ECC cycling enables the development of higher levels of muscular force at lower cardiorespiratory and metabolic loads, leading to greater force enhancements after a training period. However, fewer studies have focused on the specific perceptual and neuromuscular changes. As the two latter aspects are of major interest in clinical settings, this review aimed to present an overview of the current literature centered on the neuromuscular and perceptual responses to submaximal ECC cycling in comparison to concentric (CON) cycling. Design Narrative review of the literature. Results At a given mechanical workload, muscle activation is lower in ECC than in CON while the characteristics of the musculo-articular system (i.e., muscle-tendon unit, fascicle, and tendinous tissue length) are quite similar. At a given heart rate or oxygen consumption, ECC cycling training results in greater muscular hypertrophy and strength gains than CON cycling. On the contrary, CON cycling training seems to enhance more markers of muscle aerobic metabolism than ECC cycling performed at the same heart rate intensity. Data concerning perceptual responses, and neuromuscular mechanisms leading to a lower muscle activation (i.e., neural commands from cortex to muscular system) at a given mechanical workload are scarce. Conclusion Even though ECC cycling appears to be a very useful tool for rehabilitation purposes the perceptual and neural commands from cortex to muscular system during exercise need to be further studied.

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Commentaries on Viewpoint: Distinct modalities of eccentric exercise: different recipes, not the same dish

Coratella

Longo

Cè

et al. 2019

Journal of Applied Physiology

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Pierre Clos

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

Neuromuscular and Perceptual Responses to Sub-Maximal Eccentric Cycling

Commentaries on Viewpoint: Distinct modalities of eccentric exercise: different recipes, not the same dish

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