Cardiac rehabilitation includes aerobic and anaerobic training adapted to cardiovascular pathology for which cardiac rehabilitation is prescribed. It is essential to adapt the content of these cardiac rehabilitation sessions to optimize aerobic and anaerobic performance and quality of life. Improvement of the first ventilatory threshold is one of the main objectives since it illustrates the adaptation of the patient to submaximal exercise, typical of everyday life. The research laboratory "Autonomous Nervous System - Epidemiology, Physiology, Engineering, Health" (SPA-EPIS) has an international expertise in training optimization in top-athletes. He have shown the importance of the relationship between the power-force-velocity profile and athletes performances.
In this sudy, each patient has a force and a velocity that can be optimized with training to achieve maximum power. This optimization can be evaluated through a force-velocity profile, measured from an only sprint on a cycloergometer. The hypothesis that force-velocity profile could be used in cardiac rehabilitation in coronary patients to induce a force-velocity balance adapted through personalized sessions and regular medical follow-up. This prospective, controlled, randomized and open label study will attempt to evaluate further the relevance of force or velocity training based on the initial force-velocity profile of coronary patients included in the cardiac rehabilitation program in the University Hospital of Saint-Etienne.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
120
Two sprints of 8 seconds on a cycle ergometer will be performed for determine Force/Velocity Profile (FVP). Realized at inclusion and 2 months after.
Two vertical jumps will be performed. Height of theses vertical jumps will be measured by application "My jump 2" to determine muscle power. Realized at inclusion and 2 months after.
Questionary Short Form-12 (SF-12) will be performed to evaluate quality of life. It is composed of 12 questions. Realized at inclusion and 2 months after.
Activity actigraph will be wearing by patient during 7 consecutive days. It measures the level of physical activity and the sedentary lifestyle of patients. Realized at inclusion and 2 months after.
Program composed of two 2 training strategies according to the initial Force/Velocity Profile (FVP) will be realized at the inclusion. There are : * Strategy "experimental-speed": speed training strategy for subjects with a force-speed profile (PFV) in favour of force * Strategy "experimental-force": force training strategy for subjects with a force-speed profile (PFV) in favour of speed.
Program composed of training in force and speed independently of the initial Force/Velocity Profile (FVP).
Chu Saint-Etienne
Saint-Etienne, France
volume of oxygen consumed (VO2) (in ml/min/kg) at the first ventilatory threshold (SV1)
Change in VO2 (volume of oxygen in ml/min/kg) at the first ventilatory threshold (SV1) during a Cardio-Pulmonary Exercise Test (CPET).
Time frame: Months: 0 and 2
VO2 max (volume of oxygen maximum in ml/min/kg)
Comparison VO2 max (volume of oxygen maximum in ml/min/kg) during a Cardio-Pulmonary Exercise Test (CPET).
Time frame: Months: 0 and 2
Power at first ventilatory threshold (SV1)
Comparison value of power at first ventilatory threshold (SV1) during a Cardio-Pulmonary Exercise Test (CPET).
Time frame: Months: 0 and 2
Maximum aerobic power (in watt)
Comparison maximum aerobic power (in watt) during a Cardio-Pulmonary Exercise Test (CPET).
Time frame: Months: 0 and 2
Voluntary muscle power (in kg) during a static muscle testing on quadriceps
Comparison voluntary muscle power (in kg) during a static muscle testing on quadriceps.
Time frame: Months: 0 and 2
Voluntary muscle power (in kg) during a dynamic muscle testing on quadriceps
Comparison voluntary muscle power (in kg) during a dynamic muscle testing on quadriceps.
Time frame: Months: 0 and 2
Value of muscular endurance (in min) during a static muscle testing on quadriceps
Comparison value of muscular endurance (in min) during a static muscle testing on quadriceps.
Time frame: Months: 0 and 2
Value of muscular endurance (in min) during a dynamic muscle testing on quadriceps
Comparison value of muscular endurance (in min) during a dynamic muscle testing on quadriceps.
Time frame: Months: 0 and 2
Standard Deviation of the Normal R-R interval (SDNN) index
Measured by holter electrocardiogram during 24 hours.
Time frame: Months: 0 and 2
BaroReflex Sensitivity (BRS) (in ms/mmHg)
Measured by baroreflex.
Time frame: Months: 0 and 2
Physical activity (in Metabolic Equivalent of Task (MET)-min/week)
Assessment of Physical activity (in Metabolic Equivalent of Task (MET)-min/week). Measured by activity actigraph.
Time frame: Month: 0
Sedentary life (in hour/day)
Assessment of Sedentary life (in hour/day). Measured by activity actigraph.
Time frame: Month: 0
SF-12 questionnaire score
The SF-12 is a self-questionnaire to assess the quality of life. This tool is an abbreviated version of the "Medical Outcomes Study Short-Form General Health Survey" (SF-36) contains only 12 items out of 36 with minimum score 0 (bad quality life) and maximum score at 100 (good quality life).
Time frame: Months: 0 and 2
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