Iron deficiency in endure athletes

Iron deficiency, with or without anemia, is more prevalent in endurance athletes than in the general population. Especially in marathon and half-marathon runners - these groups of endurance athletes are at high risk for iron deficiency via several mechanisms, such as sweating, gastrointestinal blee...

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Main Authors: Michał Rogulski, Yauheniya Patarocha, Aleksandra Ślusarska, Jolanta Mędyk, Paulina Błasiak, Małgorzata Wirkijowska, Patryk Mikołajec, Ruslan Huk, Barbara Bilecka, Jakub Wirkijowski
Format: Article
Language:English
Published: Nicolaus Copernicus University in Toruń 2025-01-01
Series:Quality in Sport
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Online Access:https://apcz.umk.pl/QS/article/view/57198
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author Michał Rogulski
Yauheniya Patarocha
Aleksandra Ślusarska
Jolanta Mędyk
Paulina Błasiak
Małgorzata Wirkijowska
Patryk Mikołajec
Ruslan Huk
Barbara Bilecka
Jakub Wirkijowski
author_facet Michał Rogulski
Yauheniya Patarocha
Aleksandra Ślusarska
Jolanta Mędyk
Paulina Błasiak
Małgorzata Wirkijowska
Patryk Mikołajec
Ruslan Huk
Barbara Bilecka
Jakub Wirkijowski
author_sort Michał Rogulski
collection DOAJ
description Iron deficiency, with or without anemia, is more prevalent in endurance athletes than in the general population. Especially in marathon and half-marathon runners - these groups of endurance athletes are at high risk for iron deficiency via several mechanisms, such as sweating, gastrointestinal bleeding, urinary-tract blood loss, hemolysis, and others.   Methods: Our study followed the guidelines of Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) [9]. A literature search was conducted using the online electronic databases such as PubMed and ScienceDirect. Keywords which were searched for in this study:  “Hemoglobin”, “Iron”, “Iron Deficiencies”, “Hepcidin”, “Ferritin”, Transferrin”, “Hemoglobin”, “Athletes” and “Athletic performance”. This search included human and experimental studies. Randomized controlled trials (RCTs) were included as well. We prioritized articles published within the last 10 years; however, to assert more relevant information, the earlier articles were also included in our study. We eliminated duplicate articles, articles not in English, and not relevant for our research articles  (for example, the RCTs in non-athletes or RCTs which don't reflect the correlation between iron status and sport performance). Summary information from these articles was synthesized together to create a narrative review of the literature. Results: the correlation between physical performance in endurance athletes and their iron status turned out to be significant. Athlete's physical performance can be improved by improving their iron status. Our review revealed that iron supplementation has the most pronounced effect on physical performance in athletes, especially in those with lower ferritin levels. Conclusions: Iron is playing a key role in numerous metabolic functions of the human body. The disruption of the balance of iron leads to decreased athletic performance.   Iron deficiency has been widely described in many studies regarding athletes, especially in endurance ones. Intense exercise leads to iron deficiency due to foot strike hemolysis, iron loss in sweat, gastrointestinal bleeding, urinary-tract blood loss and decreased iron absorption. To prevent iron deficiency it is extremely important to introduce iron-rich foods to your diet. Iron-rich foods (such as meat, poultry, and seafood) contain the heme form, which has superior bioavailability compared to non-heme form contained mostly in plant-based foods. Therefore, athletes from a high-risk group of iron deficiency as vegans, vegetarians, and those who resign from meat because of personal, health or religion, should pay more attention to their dietary iron intake and may require additional supplementation of iron (oral, intramuscular or intravenous). Also, special attention should be paid to female athletes, who are in high-risk of iron deficiency due to heavy menstrual bleeding. Moreover, to avoid the inhibition of iron absorption from the gastrointestinal tract it is recommended to reduce the consumption of such products as tea, coffee, and milk, at least one hour before and after iron supplementation.
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spelling doaj-art-ee52d896f428413d8c481ec789fb949c2025-01-07T08:23:00ZengNicolaus Copernicus University in ToruńQuality in Sport2450-31182025-01-013710.12775/QS.2025.37.57198Iron deficiency in endure athletesMichał Rogulskihttps://orcid.org/0009-0004-7328-5016Yauheniya Patarocha0https://orcid.org/0009-0007-0472-9789Aleksandra Ślusarskahttps://orcid.org/0009-0009-8208-1222Jolanta Mędykhttps://orcid.org/0009-0008-3346-0827Paulina Błasiakhttps://orcid.org/0000-0002-7967-1776Małgorzata Wirkijowskahttps://orcid.org/0009-0003-5857-965XPatryk Mikołajechttps://orcid.org/0009-0001-3300-0061Ruslan Hukhttps://orcid.org/0009-0008-5756-9448Barbara Bileckahttps://orcid.org/0009-0009-5611-2996Jakub Wirkijowskihttps://orcid.org/0009-0007-9882-9341Independent Public Health Care Center in Garwolin, ul. Lubelska 50, Garwolin Iron deficiency, with or without anemia, is more prevalent in endurance athletes than in the general population. Especially in marathon and half-marathon runners - these groups of endurance athletes are at high risk for iron deficiency via several mechanisms, such as sweating, gastrointestinal bleeding, urinary-tract blood loss, hemolysis, and others.   Methods: Our study followed the guidelines of Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) [9]. A literature search was conducted using the online electronic databases such as PubMed and ScienceDirect. Keywords which were searched for in this study:  “Hemoglobin”, “Iron”, “Iron Deficiencies”, “Hepcidin”, “Ferritin”, Transferrin”, “Hemoglobin”, “Athletes” and “Athletic performance”. This search included human and experimental studies. Randomized controlled trials (RCTs) were included as well. We prioritized articles published within the last 10 years; however, to assert more relevant information, the earlier articles were also included in our study. We eliminated duplicate articles, articles not in English, and not relevant for our research articles  (for example, the RCTs in non-athletes or RCTs which don't reflect the correlation between iron status and sport performance). Summary information from these articles was synthesized together to create a narrative review of the literature. Results: the correlation between physical performance in endurance athletes and their iron status turned out to be significant. Athlete's physical performance can be improved by improving their iron status. Our review revealed that iron supplementation has the most pronounced effect on physical performance in athletes, especially in those with lower ferritin levels. Conclusions: Iron is playing a key role in numerous metabolic functions of the human body. The disruption of the balance of iron leads to decreased athletic performance.   Iron deficiency has been widely described in many studies regarding athletes, especially in endurance ones. Intense exercise leads to iron deficiency due to foot strike hemolysis, iron loss in sweat, gastrointestinal bleeding, urinary-tract blood loss and decreased iron absorption. To prevent iron deficiency it is extremely important to introduce iron-rich foods to your diet. Iron-rich foods (such as meat, poultry, and seafood) contain the heme form, which has superior bioavailability compared to non-heme form contained mostly in plant-based foods. Therefore, athletes from a high-risk group of iron deficiency as vegans, vegetarians, and those who resign from meat because of personal, health or religion, should pay more attention to their dietary iron intake and may require additional supplementation of iron (oral, intramuscular or intravenous). Also, special attention should be paid to female athletes, who are in high-risk of iron deficiency due to heavy menstrual bleeding. Moreover, to avoid the inhibition of iron absorption from the gastrointestinal tract it is recommended to reduce the consumption of such products as tea, coffee, and milk, at least one hour before and after iron supplementation. https://apcz.umk.pl/QS/article/view/57198hemoglobinironiron intakeiron deficiencyhepcidinferritin
spellingShingle Michał Rogulski
Yauheniya Patarocha
Aleksandra Ślusarska
Jolanta Mędyk
Paulina Błasiak
Małgorzata Wirkijowska
Patryk Mikołajec
Ruslan Huk
Barbara Bilecka
Jakub Wirkijowski
Iron deficiency in endure athletes
Quality in Sport
hemoglobin
iron
iron intake
iron deficiency
hepcidin
ferritin
title Iron deficiency in endure athletes
title_full Iron deficiency in endure athletes
title_fullStr Iron deficiency in endure athletes
title_full_unstemmed Iron deficiency in endure athletes
title_short Iron deficiency in endure athletes
title_sort iron deficiency in endure athletes
topic hemoglobin
iron
iron intake
iron deficiency
hepcidin
ferritin
url https://apcz.umk.pl/QS/article/view/57198
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AT paulinabłasiak irondeficiencyinendureathletes
AT małgorzatawirkijowska irondeficiencyinendureathletes
AT patrykmikołajec irondeficiencyinendureathletes
AT ruslanhuk irondeficiencyinendureathletes
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