Endurance performance during high intensive exercises is mainly determined by the capacity of the aerobic metabolism. It generally induces muscle fatigue defined as the reversible decline in skeletal muscle contractile performance. Fatigue is multifactorial and is often associated with many physiological parameters including reduced neural input and disruptive metabolic changes in skeletal muscles such as lactic acidosis and the production of oxidative free radicals. Moreover, it could lead to oxidative stress as a result of an imbalance between reactive oxygen species (ROS) production and intrinsic antioxidant defense. To alleviate oxidative stress, some ergogenic strategies have been tested. Numerous studies have reported that different types of supplementation such as selenium, vitamin E, vitamin C or polyphenols were of interest to protect against these mechanisms. Indeed, although some studies demonstrated no or harmful effects, most studies observed positive effects of antioxidants on oxidative stress or performance. More particularly, polyphenols, have great antioxidant capabilities and protective effects and it increases the synthesis and bioavailability of nitric oxide (NO)which is well known to be the most important mediator of vasodilation. To date, most of the studies exploring the effects of polyphenols on exercise investigated several days or weeks of supplementations on vascular, blood parameters (blood pressure, NO concentration, oxidative stress markers) or endurance performance. Conflicting results are often obtained. Only few studies investigated the effects of a single intake on immediate performance and recovery capacity. Therefore, the present work aimed to study the effects of an acute intake of a specific profile polyphenols from grape and apple on physical performances. More specifically, performance, in the present study, referred to high intensity cycling exercise until exhaustion revealing the capacity to maintain a constant strong effort hereafter named endurance. The hypothesis was that an acute of polyphenols would increase the time to exhaustion during a high intensity cycling exercise.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
TRIPLE
Enrollment
48
Vinitrox™ (Nexira - France) is a combination of specific profile polyphenols from grape and apple. The main polyphenol classes are proanthocyanidins (as catechins, B2 dimer), phenolic acids (as chlorogenic acids, gallic acids) and anthocyanins (as malvidin-3-glucoside). It was administrated the night and the morning before the endurance test (oral administration)
Made with maltodextrin. It was administrated the night and the morning before the endurance test (oral administration).
Time to exhaustion
Maximal duration during a cycling aerobic exercise (70% of maximal aerobic power)
Time frame: The total duration of the aerobic exercise (during the cycling aerobic exercise)
Heart rate
Heart rate using a polar belt
Time frame: Immediately before the endurance test, immediately after the endurance test and continuously recorded during three minutes during the recovery to determine half-recovery time
Gaz exchange
oxygen intake using a portable gaz exchange analyzer
Time frame: Immediately before the endurance test, immediately after the endurance test and continuously recorded during three minutes during the recovery to determine half-recovery time
blood pressure
blood pressure measured at the arm
Time frame: Immediately before the endurance test, immediately after the endurance test
Pain sensation
Pain sensation using a visual analog scale
Time frame: Immediately after the endurance exercise and 48 hours after the endurance test
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