Effects of Eccentric Pedaling at Different Rates on Neuromuscular Function

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

RECRUITING

Clinical Phase

NA

Total Enrollment

35 participants

Study Classification

INTERVENTIONAL

Study Start Date

2022-02-07

Study Completion Date

2025-06-30

Brief Summary

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The recent appearance of ergocycles that can be used for eccentric pedaling (Cyclus type) has aroused a growing interest in the field of rehabilitation. The mechanical, metabolic, and cardiorespiratory characteristics of eccentric exercises make them an exercise of choice when the goal is to improve locomotor muscle function and exercise capacity. Despite its potential advantages, the optimal modalities of eccentric pedaling, in particular the choice of pedaling frequency, are still poorly understood, especially its effects on the neuromuscular system. Indeed, most training protocols impose a fixed pedaling power but with highly variable pedaling rates, ranging from 15 to 60 rpm (Besson et al., 2013; MacMillan et al., 2017). For a given pedaling power level (P), the choice of pedaling frequency (F) directly impacts the force torque (C) and thus the force applied to the pedals, since power is equal to the product of pedaling frequency and force torque (P = F.C). For frequencies varying from 15 to 60 rpm, the level of muscular tension during pedaling therefore varies from single to quadruple. These very large variations in force can influence the neuromuscular adaptations induced during a prolonged training period. For example, the use of low pedaling frequencies corresponding to high muscle tension could favor peripheral muscular adaptations (e.g. contractility) whereas higher pedaling frequencies could favor central (i.e. nervous) adaptations.

A better understanding of the neuromuscular adaptations induced by a period of eccentric pedaling at different cadences will allow for a more precise definition of training protocols for populations likely to undergo this type of training (e.g. elderly people, patients with heart failure).

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Detailed Description

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Conditions

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Volunteers Who Can do Moderate Physical Activity

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

OTHER

Blinding Strategy

NONE

Study Groups

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Eccentric pedalling group at 15 rpm

Group Type EXPERIMENTAL

Neuromuscular evaluation

Intervention Type OTHER

Before and after training.

Muscle function:

* voluntary maximal isometric force of the knee extensors
* evoked force in the knee extensors by double percutaneous electrical stimulation at 100 and 10 Hz
* level of voluntary activation
* voluntary maximum force in concentric and eccentric mode at an angular speed of 60°.s-1
* squat jump and counter-movement jump

Assessment of aerobic capacity, muscle architecture and habituation to the eccentric pedaling task

Intervention Type OTHER

Before and after training.

Cardiovascular-respiratory function:

* Oxygen consumption during the incremental concentric pedaling test conducted to high effort perception.
* heart rate during pedaling tasks

Muscle architecture:

\- Pennation angle and thickness of vastus lateralis, rectus femoris, gastrocnemius medialis and lateralis muscles, before and after training.

Familiarization with eccentric pedaling

Pedaling at 15 rpm

Intervention Type OTHER

3 training sessions per week for 6 weeks

Eccentric pedalling group at 60 rpm

Group Type EXPERIMENTAL

Neuromuscular evaluation

Intervention Type OTHER

Before and after training.

Muscle function:

* voluntary maximal isometric force of the knee extensors
* evoked force in the knee extensors by double percutaneous electrical stimulation at 100 and 10 Hz
* level of voluntary activation
* voluntary maximum force in concentric and eccentric mode at an angular speed of 60°.s-1
* squat jump and counter-movement jump

Assessment of aerobic capacity, muscle architecture and habituation to the eccentric pedaling task

Intervention Type OTHER

Before and after training.

Cardiovascular-respiratory function:

* Oxygen consumption during the incremental concentric pedaling test conducted to high effort perception.
* heart rate during pedaling tasks

Muscle architecture:

\- Pennation angle and thickness of vastus lateralis, rectus femoris, gastrocnemius medialis and lateralis muscles, before and after training.

Familiarization with eccentric pedaling

Pedaling at 60rpm

Intervention Type OTHER

3 sessions per week of training for 6 weeks

Control

Group Type ACTIVE_COMPARATOR

Neuromuscular evaluation

Intervention Type OTHER

Before and after training.

Muscle function:

* voluntary maximal isometric force of the knee extensors
* evoked force in the knee extensors by double percutaneous electrical stimulation at 100 and 10 Hz
* level of voluntary activation
* voluntary maximum force in concentric and eccentric mode at an angular speed of 60°.s-1
* squat jump and counter-movement jump

Assessment of aerobic capacity, muscle architecture and habituation to the eccentric pedaling task

Intervention Type OTHER

Before and after training.

Cardiovascular-respiratory function:

* Oxygen consumption during the incremental concentric pedaling test conducted to high effort perception.
* heart rate during pedaling tasks

Muscle architecture:

\- Pennation angle and thickness of vastus lateralis, rectus femoris, gastrocnemius medialis and lateralis muscles, before and after training.

Familiarization with eccentric pedaling

No pedaling, usual activity

Intervention Type OTHER

Maintain usual physical activity and diet for a period of 6 weeks.

Interventions

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Neuromuscular evaluation

Before and after training.

Muscle function:

* voluntary maximal isometric force of the knee extensors
* evoked force in the knee extensors by double percutaneous electrical stimulation at 100 and 10 Hz
* level of voluntary activation
* voluntary maximum force in concentric and eccentric mode at an angular speed of 60°.s-1
* squat jump and counter-movement jump

Intervention Type OTHER

Assessment of aerobic capacity, muscle architecture and habituation to the eccentric pedaling task

Before and after training.

Cardiovascular-respiratory function:

* Oxygen consumption during the incremental concentric pedaling test conducted to high effort perception.
* heart rate during pedaling tasks

Muscle architecture:

\- Pennation angle and thickness of vastus lateralis, rectus femoris, gastrocnemius medialis and lateralis muscles, before and after training.

Familiarization with eccentric pedaling

Intervention Type OTHER

Pedaling at 15 rpm

3 training sessions per week for 6 weeks

Intervention Type OTHER

No pedaling, usual activity

Maintain usual physical activity and diet for a period of 6 weeks.

Intervention Type OTHER

Pedaling at 60rpm

3 sessions per week of training for 6 weeks

Intervention Type OTHER

Eligibility Criteria

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Inclusion Criteria

* Person who has given oral consent
* Subject capable of understanding simple commands and giving consent
* Subject (male or female) between 18 and 40 years of age.
* Subject able to do moderate physical activity

Exclusion Criteria

* Person not affiliated to national health insurance.
* Physical disabilities affecting the lower limbs or the pelvis, and which may hinder or prevent the practice of exercise on an ergocycle, whether neurological (central or peripheral), arterial (in particular, arterial disease of the lower limbs with a systolic index \< 0.6) or orthopedic (degenerative or inflammatory rheumatism).
* Person under legal protection (curatorship, guardianship)
* Person under court order (sauvegarde de justice)
* Pregnant, parturient or breastfeeding women
* Major unable to express consent
* Minor

Minimum Eligible Age

18 Years

Maximum Eligible Age

40 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes