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RESEARCH PRODUCT
Can supplementation with vitamin C and E alter physiological adaptations to strength training?
Gøran PaulsenTruls RaastadElisabeth BørsheimHåvard HamarslandKristoffer Toldnes CummingSveinung Berntsensubject
medicine.medical_specialtyAntioxidantDoseSports medicineStrength trainingmedicine.medical_treatmentPhysiologyPhysical Therapy Sports Therapy and RehabilitationPlacebo1 repetition maximumlaw.inventionStudy ProtocolRandomized controlled triallawmedicineOrthopedics and Sports MedicineAdverse effectVitamin Cbusiness.industryRehabilitationprotocol paperantioxidantsmuscle massPhysical therapymuscle strengthVDP::Medical disciplines: 700::Sports medicine: 850businessdescription
Published version of an article from the journal: BMC Sports Science, Medicine and Rehabilitation. Also available from the publisher: http://dx.doi.org/10.1186/2052-1847-6-28 Background: Antioxidant supplementation has recently been demonstrated to be a double-edged sword, because small to moderate doses of exogenous antioxidants are essential or beneficial, while high doses may have adverse effects. The adverse effects can be manifested in attenuated effects of exercise and training, as the antioxidants may shut down some redox-sensitive signaling in the exercised muscle fibers. However, conditions such as age may potentially modulate the need for antioxidant intake. Therefore, this paper describes experiments for testing the hypothesis that high dosages of vitamin C (1000 mg/day) and E (235 mg/day) have negative effects on adaptation to resistance exercise and training in young volunteers, but positive effects in older men. Methods/design: We recruited a total of 73 volunteers. The participants were randomly assigned to receiving either vitamin C and E supplementation or a placebo. The study design was double-blinded, and the participants followed an intensive training program for 10–12 weeks. Tests and measurements aimed at assessing changes in physical performance (maximal strength) and physiological characteristics (muscle mass), as well as biochemical and cellular systems and structures (e.g., cell signaling and morphology). Discussion: Dietary supplements, such as vitamin C and E, are used by many people, especially athletes. The users often believe that high dosages of supplements improve health (resistance to illness and disease) and physical performance. These assumptions are, however, generally not supported in the scientific literature. On the contrary, some studies have indicated that high dosages of antioxidant supplements have negative effects on exercise-induced adaptation processes. Since this issue concerns many people and few randomized controlled trials have been conducted in humans, further studies are highly warranted. Trial registration: ACTRN12614000065695
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-01-01 |