Iron deficiency in female adolescent athletes - prevalence, mechanisms and diagnostics
Abstract
Background: Iron deficiency (ID) is a very common condition and the most
common nutritional deficiency in the world. ID mostly affects females, both
athletes and non-athletes. Several underlying mechanisms are identified such as
insufficient dietary intake and losses by menses. In the athlete group different
additional mechanisms are discussed including the existence of “sports anaemia”
and in recent years the effect of inflammation due to physical activity and its
effect on iron status has been highlighted. The inflammatory response
complicates the diagnostic process and alternative laboratory methods have been
proposed to improve diagnostics.
Methods: To study the prevalence of ID and iron deficiency anaemia (IDA) we
used two different populations, first the female national soccer team (individuals
aged 19-28 years), secondly a population of adolescent female athletes as well as
a control group of adolescent non-athletes in a senior high school was studied. All
participants filled in a questionnaire and blood samples comprising blood status,
iron status including soluble transferrin receptor and hepcidin, and inflammatory
markers as well as Helicobacter pylori antibodies were collected. Different
methods for detection of ID were compared.
Results: The initial study showed a prevalence of ID of 57% and IDA of 29%. In
the following study we found ID in 52% of the athletes and 48% of the nonathletes.
IDA was seen in 8.6% of the athletes and 3.3% in the control group. The
athletes had a significantly better diet and less loss by menses. Serum hepcidin
was significantly higher in the athlete group and serum ferritin was the test that
identified most individuals with ID.
Conclusion: Our studies revealed a high prevalence of ID in both the older elite
soccer players as well as in the adolescent young female athletes. The prevalence
of IDA was higher in the elite soccer player. In the adolescent athlete group we
found a higher iron intake, as well as significantly less menstrual bleeding, but no
difference in occurrence of ID. Serum hepcidin was significantly higher in the
athlete group compared to the non-athletes. Hepcidin down regulates ferroportin,
which results in decreased dietary iron absorption. Thus this could be a
mechanism behind sports related iron deficiency. For diagnosis, serum ferritin
remains the most sensitive tool, but Helicobacter pylori antibodies and serum
hepcidin may be used in cases of non-responders to iron treatment.
Parts of work
1. Landahl G (Sandström), Adolfsson P, Börjesson M, Mannheimer
C, Rödjer S. Iron Deficiency and Anemia: A Common Problem in
Female Elite Soccer Players.
Int J Sport Nutr Exerc Metab. 2005; 15:689-694. ::PMID::16521852 2. Sandström G, Börjesson M, Rödjer S. Iron Deficiency in
Adolescent Female Athletes – Is Iron Status Affected by Regular
Sporting Activity?
Clin J Sport Med. 2012; 22:495-500. ::doi::10.1097/JSM.0b013e3182639522 3. Sandström G, Kaijser B, Rödjer S, Börjesson M. Helicobacter
pylori antibodies and Iron Deficiency in Female Adolescents
Under revision in PLoS one 4. Sandström G, Rödjer S, Jacobsson S, Börjesson M. Evaluation of
Iron Status in Female Adolescent Athletes.
Submitted to Br J Sport Med
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Medicine. Department of Molecular and Clinical Medicine
Disputation
Torsdagen den 12 juni 2014, kl. 13.00, Östraaulan, Centralkliniken, Sahlgrenska Universitetssjukhuset/Östra
Date of defence
2014-06-12
goran.sandstrom@gu.se
Date
2014-05-26Author
Sandström, Göran
Keywords
iron deficiency
iron deficiency anaemia
female adolescents
physical activity
inflammation
Helicobacter pylori
Publication type
Doctoral thesis
ISBN
978-91-628-8983-8
Language
eng