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Iron deficiency in sports - definition, influence on performance and therapy.

Swiss medical weekly
January 1, 2015
German Clénin et al. (7 authors)
Journal ArticleReviewHuman Study
Study Details

Study Goal

The researchers aimed to evaluate the impact of iron deficiency on athletes and establish appropriate ferritin cut-offs and treatment strategies.

Results Summary

The study found that iron deficiency is common among athletes and affects performance, with recommended ferritin cut-offs varying by age and training conditions. Treatment includes nutritional counseling, oral or intravenous iron supplementation, with follow-up monitoring.

Population

Athletes, including healthy males and females >15 years, children (6-12 years), and younger adolescents (12-15 years).

Effective Dosage

Not specified (intermittent oral substitution mentioned).

Duration

Not specified (follow-up recommended twice a year).

Interactions

None mentioned.

Extracted Claims (18)
InterventionDirectionEndpointPopulationDosageImpactClaim #
iron deficiency
decrease
physical performance
athletes
-
may affect
#1
iron deficiency
neutral
-
athletes
-
should be treated
#2
sport
increase
iron deficiency
athletes
-
leads to
#3
sport
increase
iron demand
athletes
-
increased
#4
sport
increase
iron loss
athletes
-
elevated
#5
sport
decrease
iron absorption
athletes
-
blockage of
#6
ferritin values <15 mcg/l
neutral
empty iron stores
healthy male and female athletes >15 years
-
are equivalent to
#7
ferritin values from 15 to 30 mcg/l
neutral
low iron stores
healthy male and female athletes >15 years
-
are equivalent to
#8
cut-off of 30 mcg/l
neutral
ferritin level
healthy male and female athletes >15 years
-
is appropriate
#9
cut-off of 15 mcg/l
neutral
ferritin level
children aged from 6-12 years
-
is recommended
#10
cut-off of 20 mcg/l
neutral
ferritin level
younger adolescents from 12-15 years
-
is recommended
#11
ferritin value of 50 mcg/l
neutral
ferritin level
adult elite athletes prior to altitude training
-
should be attained
#12
iron demands
increase
-
adult elite athletes prior to altitude training
-
are increased
#13
intermittent oral substitution
neutral
-
athletes with repeatedly low ferritin values
-
benefit from
#14
long-term daily oral iron intake
neutral
-
athletes with normal or high ferritin values
-
does not make sense
#15
long-term daily oral iron intake
neutral
-
athletes with normal or high ferritin values
-
may be harmful
#16
i.v. supplementation
neutral
-
athletes with normal or high ferritin values
-
does not make sense
#17
i.v. supplementation
neutral
-
athletes with normal or high ferritin values
-
may be harmful
#18
Abstract

Iron deficiency is frequent among athletes. All types of iron deficiency may affect physical performance and should be treated. The main mechanisms by which sport leads to iron deficiency are increased iron demand, elevated iron loss and blockage of iron absorption due to hepcidin bursts. As a baseline set of blood tests, haemoglobin, haematocrit, mean cellular volume, mean cellular haemoglobin and serum ferritin levels help monitor iron deficiency. In healthy male and female athletes >15 years, ferritin values <15 mcg are equivalent to empty, values from 15 to 30 mcg/l to low iron stores. Therefore a cut-off of 30 mcg/l is appropriate. For children aged from 6-12 years and younger adolescents from 12-15 years, cut-offs of 15 and 20 mcg/l, respectively, are recommended. As an exception in adult elite sports, a ferritin value of 50 mcg/l should be attained in athletes prior to altitude training, as iron demands in these situations are increased. Treatment of iron deficiency consists of nutritional counselling, oral iron supplementation or, in specific cases, by intravenous injection. Athletes with repeatedly low ferritin values benefit from intermittent oral substitution. It is important to follow up the athletes on an individual basis, repeating the baseline blood tests listed above twice a year. A long-term daily oral iron intake or i.v. supplementation in the presence of normal or even high ferritin values does not make sense and may be harmful.

Medical Subject Headings (MeSH)
AdolescentAdultAnemia, Iron-DeficiencyAthletesAthletic PerformanceChildDietary SupplementsFemaleFerritinsHematocritHemoglobinsHumansIronIron, DietaryMaleYoung Adult
Study Links
Quality Scores
Safety70
Efficacy85/10
Quality80/10
Citation Metrics
Total Citations97
Citations/Year9.7
Relative Citation Ratio4.97
NIH Percentile93%
Research Impact Scores
APT Score0.95
Weight Score1.95
Normalized Score0.78
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