Dried Urine Spots As Sampling Technique for Multi-mycotoxin Analysis in Human Urine

Overview

Journal Mycotoxin Res

Specialty Microbiology

Date 2021 Feb 27

PMID 33638099

Citations 5

Authors

Jessica Schmidt

Viktoria Lindemann

Monica Olsen

Benedikt Cramer

Hans-Ulrich Humpf

Affiliations

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Abstract

A simple and effective approach for HPLC-MS/MS based multi-mycotoxin analysis in human urine samples was developed by application of dried urine spots (DUS) as alternative on-site sampling strategy. The newly developed method enables the detection and quantitation of 14 relevant mycotoxins and mycotoxin metabolites, including citrinin (CIT), dihydrocitrinone (DH-CIT), deoxynivalenol (DON), fumonisin B (FB), T-2 Toxin (T-2), HT-2 Toxin (HT-2), ochratoxin A (OTA), 2'R-ochratoxin A (2'R-OTA), ochratoxin α (OTα), tenuazonic acid and allo-tenuazonic acid (TeA + allo-TeA), zearalenone (ZEN), zearalanone (ZAN), α-zearalenol (α-ZEL), and β-zearalenol (β-ZEL). Besides the spotting procedure, sample preparation includes enzymatic cleavage of glucuronic acid conjugates and stable isotope dilution analysis. Method validation revealed low limits of detection in the range of pg/mL urine and excellent apparent recovery rates for most analytes. Stability investigation of DUS displayed no or only slight decrease of the analyte concentration over a period of 28 days at room temperature. The new method was applied to the analysis of a set of urine samples (n = 91) from a Swedish cohort. The four analytes, DH-CIT, DON, OTA, and TeA + allo-TeA, could be detected and quantified in amounts ranging from 0.06 to 0.97 ng/mL, 3.03 to 136 ng/mL, 0.013 to 0.434 ng/mL and from 0.36 to 47 ng/mL in 38.5%, 70.3%, 68.1%, and 94.5% of the samples, respectively. Additional analysis of these urine samples with an established dilute and shoot (DaS) approach displayed a high consistency of the results obtained with both methods. However, due to higher sensitivity, a larger number of positive samples were observed using the DUS method consequently providing a suitable approach for human biomonitoring of mycotoxin exposure.

Citing Articles

Advancing Global Health Surveillance of Mycotoxin Exposures using Minimally Invasive Sampling Techniques: A State-of-the-Science Review.

Jacobson T, Bae Y, Kler J, Iyer R, Zhang R, Montgomery N Environ Sci Technol. 2024; 58(8):3580-3594.

PMID: 38354120 PMC: 10903514. DOI: 10.1021/acs.est.3c04981.

Analysis of mold and mycotoxins in naturally infested indoor building materials.

Lindemann V, Schleiner T, Maier U, Fels H, Cramer B, Humpf H Mycotoxin Res. 2022; 38(3):205-220.

PMID: 35900668 PMC: 9356937. DOI: 10.1007/s12550-022-00461-3.

Assessment of multiple mycotoxin exposure and its association with food consumption: a human biomonitoring study in a pregnant cohort in rural Bangladesh.

Kyei N, Cramer B, Humpf H, Degen G, Ali N, Gabrysch S Arch Toxicol. 2022; 96(7):2123-2138.

PMID: 35441239 PMC: 9151532. DOI: 10.1007/s00204-022-03288-0.

Analysis of Cannabinoids and Metabolites in Dried Urine Spots (DUS).

Moretti M, Freni F, Carelli C, Previdere C, Grignani P, Vignali C Molecules. 2021; 26(17).

PMID: 34500772 PMC: 8434267. DOI: 10.3390/molecules26175334.

Determination of Urinary Mycotoxin Biomarkers Using a Sensitive Online Solid Phase Extraction-UHPLC-MS/MS Method.

Schmidt J, Cramer B, Turner P, Stoltzfus R, Humphrey J, Smith L Toxins (Basel). 2021; 13(6).

PMID: 34208182 PMC: 8230879. DOI: 10.3390/toxins13060418.

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