ABSTRACT
Background@#Iron is an essential mineral needed for physical and cognitive development with iron needs greatest during pregnancy, infancy, childhood, and adolescence. Iron is vital throughout the lifespan as it is a component of haemoglobin, the protein responsible for transporting oxygen from the lungs to body cells for energy production. Iron deficiency results from a depletion of body iron stores due to increased iron needs, inadequate dietary iron intake, reduced iron absorption, or loss of iron from infections caused by malaria, hookworms, and other intestinal parasites. In advanced stages, iron deficiency leads to iron deficiency anaemia, a condition of low red blood cells and reduced oxygen-carrying capacity.@*Goal@#This study aimed to determine body iron stores in Mongolian children aged 6-59 months, and estimate prevalence of iron deficiency among of studied children. @*Materials and Methods@#In this study were used materials that collected during the fifth national nutrition survey conducted in 21 provinces of 4 economic regions and 8 districts of Ulaanbaatar city of Mongolia. The fifth national nutrition survey was household based survey; therefore sampling unit was household with 5 year-old child. We had used demographic information collected by interview methods and laboratory examination results on ferritin, soluble transferrin (sTfR), C reactive protein (CRP) and α1-acid glycoprotein (AFP) in serum samples collected from 6 to 59 months old children, pregnant women and 15–49 year-old men living in child’s households. Serum Ferritin and soluble transferrin (sTfR) were used as a biomarker for iron store and iron deficiency and C reactive protein (CRP) and AFG were used as indicators for acute and chronic infection. The determination of iron status is challenging when concomitant infection and inflammation are present because of confounding effects of the acute-phase response on the interpretation of most iron indicators. Effects of C reactive protein (CRP) and AGP concentrations on estimates of ID according to serum ferritin (SF) and soluble transferrin receptor (sTfR) were considered in the study. @*Ethical considerations @#The survey protocol was discussed at the scientific committee of the Public health institute and approved by director of scientific committee of PHI on June 28, 2016. Ethical approval for conducting the survey, including obtaining biological samples was obtained from the Medical ethics committee under the Ministry of Health of Mongolia on July 7, 2016. Participation in the survey was voluntary, oral and written informed consent was obtained from each participants and adult caregivers of under 5 year-old children. @*Results@#Biomarkers of iron status were adjusted with inflammation indicators and estimated iron deficiency (ID) and total body iron store in 1732 children 6-59 month-olds. The study findings showed that adjusted mean concentration of serum ferritin and soluble transferrin receptor was 33.7 µg/l and 8.8 mg/l in children age of 6-59 months, respectively. The calculated total body iron store by using adjusted SF and soluble transferrin receptor was 2.8 mg/kg among surveyed children. Iron deficiency was estimated by using 2 different biomarkers among selected population group. The prevalence of iron deficiency estimated by using SF was 20.7% in children 6-59 months. Iron deficiency in children defined by using serum soluble transferrin receptor was 27.7%.@*Conclusions@#</br> 1. The average serum ferritin and soluble transferrin receptor concentrations was 33.7 µg/l and 8.8 mg/l in children age of 6-59 months, respectively. Total body iron store estimated by using SF and soluble transferrin was 2.8 mg/kg among surveyed children. </br>2. The prevalence of iron deficiency estimated by using SF and sTfR was 20.7% and 27.7% in children 6-59 months, respectively. According to the WHO recommendation, prevalence of iron deficiency among Mongolian children aged 6-59 months is classified as “prevalent”. </br>3. Overall proportion of children with low body iron store was 22.4%. The prevalence of iron depletion is relatively common in boys, young children aged 6–23 months, and rural children aged 6-59 months.
ABSTRACT
Objectives : The present study investigates the effects of body iron stores upon indices of biosynthesis and destruction of red blood cells (RBC) induced by a single session of cycling exercise.<BR>Design : Eight sedentary female students were divided into groups depending on their body iron stores : normal (C group, n=5) and iron deficient (D group, n=3) . Blood samples were collected at five time points of before (pre), immediately after (0 hours), then 1, 3 and 6 hours after exercise (248±31 kcal, 70% V0<SUB>2</SUB> peak level) . Osmotic fragility and serum haptoglobin (hp) concentration served as of for degradation, and δ-aminolevulinate dehydratase (ALAD) activity, erythropoietin concentration and number of reticulocytes served as indices of RBC biosynthesis.<BR>Results : A single session of cycling exercise did not affect the level of RBC, hemoglobin, hematocrit, serum iron, ferritin, transferrin saturation, hp and osmotic fragility in either groups. The δ-ALAD activity increased at 3 (p<0.05) and 6 hours (p<0.01) after exercise compared with that at 0 hours in the C group. In contrast, δ -ALAD activity in the D group was significantly lower at 3 hours after exercise than that of C group (p<0.001) . Reticulocytes and erythropoietin concentration increased gradually in the C group after exercise, but not in the D group.<BR>Conclusions : A single session of cycling exercise under our experimental conditions enhanced RBC biosynthesis indicated by δ -ALAD activity, whereas exercise-induced hemolysis was not evident. Body iron stores affect the δ -ALAD activity induced by a single bout of cycling exercise.