Oxidative Stress Clinical Trial
Official title:
The Effect of Eccentric Exercise and Iron Supplementation on Blood Redox Status and Muscle Performance in Different Age Groups
Iron supplementation is very common in athletes, probably due to its catalytic role on the
oxygen transport and optimal function of oxidative enzymes and proteins during exercise.
Iron is also characterized as a potent pro-oxidant, as it can lead to increased production
of reactive oxygen and nitrogen species (RONS) that are involved in critical biological
processes, such as gene expression, signal transduction and enzyme activity. In exercise,
low levels of RONS are essential for optimal force production, whereas excessive production
of RONS can cause contractile dysfunction, resulting in muscle weakness and fatigue. On the
other hand, RONS are involved in signaling pathways and up-regulation of the expression of
several genes, and therefore, RONS can provoke favorable effects such as training
adaptations.
The purpose of the present study is to investigate the effect of iron supplementation on
redox status, muscle damage and muscle performance after an acute bout of a valid muscle
damaging eccentric exercise model in adults and children.
Eccentric muscle work is an essential part of human daily activities, such as walking, and
in particular, when walking downhill or descending stairs. It is also a component of almost
all of the athletic actions. The most notable and well-described effect of eccentric
exercise is the muscle damage that peaks one to three days after exercise and is accompanied
by several hematological, biochemical and physiological responses. Excessive production of
reactive oxygen and nitrogen species (RONS) has been reported as a result of eccentric
exercise. The typical approach so far, was to provide antioxidants to minimize oxidative
stress, yet the effectiveness of such an approach is still under debate. Earlier studies
reported positive effects of antioxidant supplementation on muscle performance, muscle
damage and redox status, whereas more recently, well-received studies pointed towards the
negative impact of antioxidant supplementation.
Iron is an essential element for the completion of numerous important biological functions,
and also for optimal exercise performance. It is a vital component for the formation of
oxygen-transport and iron-storage proteins hemoglobin and myoglobin, and for the most
favorable function of many oxidative enzymes that affect the intracellular metabolism.
Therefore, iron supplementation is commonly used to avoid exercise-induced perturbations of
iron homeostasis and maintain the required iron stores that are necessary to address
exercise needs or enhance physical performance. Iron is also characterized as a potent
pro-oxidant, as it can lead to increased production of reactive oxygen and nitrogen species
(RONS) that are involved in critical biological processes, such as gene expression, signal
transduction and enzyme activity. Nevertheless, the role of iron on modifying redox
responses after eccentric exercise has not yet been examined.
In a double blind, randomized cross over study that will be conducted in two cycles, healthy
men and boys will receive either the iron supplement (37mg of elemental iron per day for
three weeks before and one week after the eccentric exercise) or the placebo.
Blood samples will be collected: a) in adults prior to, at the end of first supplementation
period, 24, 48,72 and 96 hours following an acute bout of eccentric exercise (5 sets x 15
max reps), and b) in children prior to, at the end of first supplementation period and 72
hours following the same exercise protocol. Blood drawings will be repeated at the same time
points during the second supplementation cycle.
The aims of the present research are to investigate:
- The effect of an acute bout of eccentric exercise on muscle performance, redox status,
and iron status.
- The effect of three weeks of iron supplementation on muscle performance, redox status,
and iron status.
- The effect of four weeks of iron supplementation on muscle damage, muscle performance,
and redox status after an acute eccentric exercise bout.
- The effect of age on muscle damage, muscle performance and redox status after an acute
eccentric exercise bout and iron supplementation.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Investigator)
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