Oxidative Stress Clinical Trial
Official title:
The Effect of Antioxidant Vitamin Supplementation on Muscle Performance and Redox Status After Eccentric Training
Consumption of vitamin supplements is a common practice among athletes or people
participating in health promoting exercise programs. The reason for this interest in vitamin
supplements is primarily because of the observation that enhanced production of reactive
oxygen and nitrogen species (RONS) influence fundamental biological processes, such as gene
expression, signal transduction and enzyme activity. In a muscle and exercise physiology
context, a low level of RONS is required for normal force production, whereas marked
increases in RONS can cause contractile dysfunction, resulting in muscle weakness and
fatigue. On the other hand RONS are involved in signaling pathways and serve to up-regulate
the expression of a number of genes and can exert favorable effects such as training
adaptations.
The present study will employ a valid eccentric exercise model to examine the influence of
combined vitamin C and E supplementation after acute and chronic eccentric exercise on
muscle damage and performance, redox status, hemolysis and lipid and lipoprotein profile.
Historically there was a shift in the paradigm regarding the effects of antioxidant
supplementation on muscle performance and redox status. In fact, back in the 80's and 90's
most of the relevant studies reported "positive" effects of antioxidant supplementation on
muscle performance, muscle damage and redox status. On the other hand, the last five years,
an increasing number of well-received studies are appearing pointing towards the negative
impact of antioxidant supplementation. Moreover, much more studies than the past are now
specifically addressing the effects of antioxidant supplementation on the exercise
adaptations that take place after chronic exercise. Regarding the latter, it has been
reported recently that antioxidant supplementation greatly decreases training efficiency and
prevents many cellular adaptations to chronic exercise. Nevertheless, the debate is still
open and an equal number of recent studies have reported the reverse i.e. positive effects
of antioxidant supplementation on exercise adaptations or virtually no effect of antioxidant
supplementation on exercise adaptations.
Eccentric muscle work is an essential part of daily activities of humans, such as walking,
and in particular, when walking downhill or descending stairs. The most notable and
well-described effect of eccentric exercise is the muscle damage that peaks one to three
days after exercise. Eccentric exercise can cause effects other than just muscle damage,
from activation of several transcription factors to favorable changes on lipid and
lipoproteins profile.
In a double-blinded fashion, men will receive either a daily oral supplementation of vitamin
C (1g) and vitamin E (400IU) or placebo for eleven weeks. Following baseline tests,
volunteers will have to perform an eccentric exercise session two times per week for four
weeks. Before and after the chronic eccentric exercise volunteers will be subject to one
session of acute eccentric exercise, and physiological measurements will be performed as
well as blood samples and muscle biopsies will be collected.
The aims of the present research are to investigate:
- the effect of antioxidant vitamin supplementation for 4 weeks on muscle performance,
redox status, hemolysis and lipids and lipoprotein profile,
- the effect of an acute bout of eccentric exercise on muscle performance, redox status,
hemolysis and lipid and lipoproteins profile of untrained individuals supplemented with
or without antioxidant vitamins,
- the effect of 4 weeks of eccentric training on muscle performance, redox status,
hemolysis and lipid and lipoproteins profile of untrained individuals supplemented with
or without antioxidant vitamins,
- the effect of an acute bout of eccentric exercise on muscle performance, redox status,
hemolysis and lipid and lipoproteins profile of individuals trained for 4 weeks and
supplemented with or without antioxidant vitamins.
;
Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator)
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