Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda

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Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda. / Mutumba, Rolland; Pesu, Hannah; Mbabazi, Joseph; Greibe, Eva; Olsen, Mette Frahm; Briend, André; Mølgaard, Christian; Ritz, Christian; Nabukeera-Barungi, Nicolette; Mupere, Ezekiel; Filteau, Suzanne; Friis, Henrik; Grenov, Benedikte.

In: Nutrients, Vol. 15, No. 15, 3429, 2023.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Mutumba, R, Pesu, H, Mbabazi, J, Greibe, E, Olsen, MF, Briend, A, Mølgaard, C, Ritz, C, Nabukeera-Barungi, N, Mupere, E, Filteau, S, Friis, H & Grenov, B 2023, 'Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda', Nutrients, vol. 15, no. 15, 3429. https://doi.org/10.3390/nu15153429

APA

Mutumba, R., Pesu, H., Mbabazi, J., Greibe, E., Olsen, M. F., Briend, A., Mølgaard, C., Ritz, C., Nabukeera-Barungi, N., Mupere, E., Filteau, S., Friis, H., & Grenov, B. (2023). Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda. Nutrients, 15(15), [3429]. https://doi.org/10.3390/nu15153429

Vancouver

Mutumba R, Pesu H, Mbabazi J, Greibe E, Olsen MF, Briend A et al. Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda. Nutrients. 2023;15(15). 3429. https://doi.org/10.3390/nu15153429

Author

Mutumba, Rolland ; Pesu, Hannah ; Mbabazi, Joseph ; Greibe, Eva ; Olsen, Mette Frahm ; Briend, André ; Mølgaard, Christian ; Ritz, Christian ; Nabukeera-Barungi, Nicolette ; Mupere, Ezekiel ; Filteau, Suzanne ; Friis, Henrik ; Grenov, Benedikte. / Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda. In: Nutrients. 2023 ; Vol. 15, No. 15.

Bibtex

@article{d937bc4019d4478194af6b0523bbc358,
title = "Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda",
abstract = "Micronutrient deficiencies and stunting are prevalent. We assessed correlates of iron, cobalamin, folate, and vitamin A biomarkers in a cross-sectional study of stunted children aged 12–59 months in eastern Uganda. The biomarkers measured were serum ferritin (S-FE), soluble transferrin receptor (S-TfR), retinol binding protein (S-RBP), plasma cobalamin (P-Cob), methylmalonic acid (P-MMA), and folate (P-Fol). Using linear regression, we assessed socio-demography, stunting severity, malaria rapid test, and inflammation as correlates of micronutrient biomarkers. Of the 750 children, the mean (SD) age was 32.0 (11.7) months, and 45% were girls. Iron stores were depleted (inflammation-corrected S-FE < 12 µg/L) in 43%, and 62% had tissue iron deficiency (S-TfR > 8.3 mg/L). P-Cob was low (<148 pmol/L) and marginal (148–221 pmol/L) in 3% and 20%, and 16% had high P-MMA (>0.75 µmol/L). Inflammation-corrected S-RBP was low (<0.7 µmol/L) in 21% and P-Fol (<14 nmol/L) in 1%. Age 24–59 months was associated with higher S-FE and P-Fol and lower S-TfR. Breastfeeding beyond infancy was associated with lower iron status and cobalamin status, and malaria was associated with lower cobalamin status and tissue iron deficiency (higher S-TfR) despite iron sequestration in stores (higher S-FE). In conclusion, stunted children have iron, cobalamin, and vitamin A deficiencies. Interventions addressing stunting should target co-existing micronutrient deficiencies.",
keywords = "Faculty of Science, Stunting, Micronutrient status, Iron, Cobalamin, Folate, Vitamin A, Children, Uganda",
author = "Rolland Mutumba and Hannah Pesu and Joseph Mbabazi and Eva Greibe and Olsen, {Mette Frahm} and Andr{\'e} Briend and Christian M{\o}lgaard and Christian Ritz and Nicolette Nabukeera-Barungi and Ezekiel Mupere and Suzanne Filteau and Henrik Friis and Benedikte Grenov",
note = "CURIS 2023 NEXS 165",
year = "2023",
doi = "10.3390/nu15153429",
language = "English",
volume = "15",
journal = "Nutrients",
issn = "2072-6643",
publisher = "M D P I AG",
number = "15",

}

RIS

TY - JOUR

T1 - Correlates of iron, cobalamin, folate, and vitamin A status among stunted children: A cross-sectional study in Uganda

AU - Mutumba, Rolland

AU - Pesu, Hannah

AU - Mbabazi, Joseph

AU - Greibe, Eva

AU - Olsen, Mette Frahm

AU - Briend, André

AU - Mølgaard, Christian

AU - Ritz, Christian

AU - Nabukeera-Barungi, Nicolette

AU - Mupere, Ezekiel

AU - Filteau, Suzanne

AU - Friis, Henrik

AU - Grenov, Benedikte

N1 - CURIS 2023 NEXS 165

PY - 2023

Y1 - 2023

N2 - Micronutrient deficiencies and stunting are prevalent. We assessed correlates of iron, cobalamin, folate, and vitamin A biomarkers in a cross-sectional study of stunted children aged 12–59 months in eastern Uganda. The biomarkers measured were serum ferritin (S-FE), soluble transferrin receptor (S-TfR), retinol binding protein (S-RBP), plasma cobalamin (P-Cob), methylmalonic acid (P-MMA), and folate (P-Fol). Using linear regression, we assessed socio-demography, stunting severity, malaria rapid test, and inflammation as correlates of micronutrient biomarkers. Of the 750 children, the mean (SD) age was 32.0 (11.7) months, and 45% were girls. Iron stores were depleted (inflammation-corrected S-FE < 12 µg/L) in 43%, and 62% had tissue iron deficiency (S-TfR > 8.3 mg/L). P-Cob was low (<148 pmol/L) and marginal (148–221 pmol/L) in 3% and 20%, and 16% had high P-MMA (>0.75 µmol/L). Inflammation-corrected S-RBP was low (<0.7 µmol/L) in 21% and P-Fol (<14 nmol/L) in 1%. Age 24–59 months was associated with higher S-FE and P-Fol and lower S-TfR. Breastfeeding beyond infancy was associated with lower iron status and cobalamin status, and malaria was associated with lower cobalamin status and tissue iron deficiency (higher S-TfR) despite iron sequestration in stores (higher S-FE). In conclusion, stunted children have iron, cobalamin, and vitamin A deficiencies. Interventions addressing stunting should target co-existing micronutrient deficiencies.

AB - Micronutrient deficiencies and stunting are prevalent. We assessed correlates of iron, cobalamin, folate, and vitamin A biomarkers in a cross-sectional study of stunted children aged 12–59 months in eastern Uganda. The biomarkers measured were serum ferritin (S-FE), soluble transferrin receptor (S-TfR), retinol binding protein (S-RBP), plasma cobalamin (P-Cob), methylmalonic acid (P-MMA), and folate (P-Fol). Using linear regression, we assessed socio-demography, stunting severity, malaria rapid test, and inflammation as correlates of micronutrient biomarkers. Of the 750 children, the mean (SD) age was 32.0 (11.7) months, and 45% were girls. Iron stores were depleted (inflammation-corrected S-FE < 12 µg/L) in 43%, and 62% had tissue iron deficiency (S-TfR > 8.3 mg/L). P-Cob was low (<148 pmol/L) and marginal (148–221 pmol/L) in 3% and 20%, and 16% had high P-MMA (>0.75 µmol/L). Inflammation-corrected S-RBP was low (<0.7 µmol/L) in 21% and P-Fol (<14 nmol/L) in 1%. Age 24–59 months was associated with higher S-FE and P-Fol and lower S-TfR. Breastfeeding beyond infancy was associated with lower iron status and cobalamin status, and malaria was associated with lower cobalamin status and tissue iron deficiency (higher S-TfR) despite iron sequestration in stores (higher S-FE). In conclusion, stunted children have iron, cobalamin, and vitamin A deficiencies. Interventions addressing stunting should target co-existing micronutrient deficiencies.

KW - Faculty of Science

KW - Stunting

KW - Micronutrient status

KW - Iron

KW - Cobalamin

KW - Folate

KW - Vitamin A

KW - Children

KW - Uganda

U2 - 10.3390/nu15153429

DO - 10.3390/nu15153429

M3 - Journal article

C2 - 37571364

VL - 15

JO - Nutrients

JF - Nutrients

SN - 2072-6643

IS - 15

M1 - 3429

ER -

ID: 360958919