A Pilot Study to Evaluate Aflatoxin Exposure in a Rural Ugandan Population

Overview

Journal Trop Med Int Health

Specialties Public Health
Tropical Medicine

Date 2014 Mar 12

PMID 24612197

Citations 17

Authors

Gershim Asiki

Janet Seeley

Chou Srey

Kathy Baisley

Tracy Lightfoot

Kaaya Archileo

Dorice Agol

Andrew Abaasa

Katie Wakeham

Michael N Routledge

Christopher P Wild

Robert Newton

Yun Yun Gong

Affiliations

Soon will be listed here.

Abstract

Objectives: The fungal metabolite aflatoxin is a common contaminant of foodstuffs, especially when stored in damp conditions. In humans, high levels can result in acute hepatic necrosis and death, while chronic exposure is carcinogenic. We conducted a pilot study nested within an existing population cohort (the General Population Cohort), to assess exposure to aflatoxin, among people living in rural south-western Uganda.

Methods: Sera from 100 adults and 96 children under 3 years of age (85 male, 111 female) were tested for aflatoxin-albumin adduct (AF-alb), using an ELISA assay. Socio-demographic and dietary data were obtained for all participants; HIV serostatus was available for 90 adults and liver function tests (LFTs) for 99.

Results: Every adult and all but four children had detectable AF-alb adduct, including five babies reported to be exclusively breastfed. Levels ranged from 0 to 237.7 pg/mg albumin and did not differ significantly between men and women, by age or by HIV serostatus; 25% had levels above 15.1 pg/mg albumin. There was evidence of heterogeneity between villages (P = 0.003); those closest to trading centres had higher levels. Adults who consumed more Matooke (bananas) had lower levels of AF-alb adduct (P = 0.02) than adults who did not, possibly because their diet contained fewer aflatoxin-contaminated foods such as posho (made from maize). Children who consumed soya, which is not grown locally, had levels of AF-alb adduct that were almost twice as high as those who did not eat soya (P = 0.04).

Conclusions: Exposure to aflatoxin is ubiquitous among the rural Ugandans studied, with a significant number of people having relatively high levels. Sources of exposure need to be better understood to instigate practical and sustainable interventions.

Citing Articles

Comparative Analysis of Multiple GWAS Results Identifies Metabolic Pathways Associated with Resistance to Infection and Aflatoxin Accumulation in Maize.

Warburton M, Jeffers D, Smith J, Scapim C, Uhdre R, Thrash A Toxins (Basel). 2022; 14(11).

PMID: 36355988 PMC: 9695789. DOI: 10.3390/toxins14110738.

Characterization of Ugandan Endemic Species and Identification of Non-Aflatoxigenic Isolates for Potential Biocontrol of Aflatoxins.

Wokorach G, Landschoot S, Lakot A, Karyeija S, Audenaert K, Echodu R Toxins (Basel). 2022; 14(5).

PMID: 35622551 PMC: 9143334. DOI: 10.3390/toxins14050304.

Estimating the risk of aflatoxin-induced liver cancer in Tanzania based on biomarker data.

Kimanya M, Routledge M, Mpolya E, Ezekiel C, Shirima C, Gong Y PLoS One. 2021; 16(3):e0247281.

PMID: 33705417 PMC: 7951873. DOI: 10.1371/journal.pone.0247281.

Aflatoxin exposure assessed by aflatoxin albumin adduct biomarker in populations from six African countries: REVIEW ARTICLE.

Xu Y, Gong Y, Routledge M World Mycotoxin J. 2021; 11(3):411-419.

PMID: 33552312 PMC: 7797627. DOI: 10.3920/WMJ2017.2284.

Estimating the health burden of aflatoxin attributable stunting among children in low income countries of Africa.

Rasheed H, Xu Y, Kimanya M, Pan X, Li Z, Zou X Sci Rep. 2021; 11(1):1619.

PMID: 33452336 PMC: 7810982. DOI: 10.1038/s41598-020-80356-4.