Sampling Foods for Mycotoxins

Overview

Journal Food Addit Contam

Specialty Nutritional Sciences

Date 2006 Jan 6

PMID 16393815

Citations 20

Authors

T B Whitaker

Affiliations

Soon will be listed here.

Abstract

It is difficult to obtain precise and accurate estimates of the true mycotoxin concentration of a bulk lot when using a mycotoxin-sampling plan that measures the concentration in only a small portion of the bulk lot. A mycotoxin-sampling plan is defined by a mycotoxin test procedure and a defined accept/reject limit. A mycotoxin test procedure is a complicated process and generally consists of several steps: (1) a sample of a given size is taken from the lot, (2) the sample is ground (comminuted) in a mill to reduce its particle size, (3) a subsample is removed from the comminuted sample, and (4) the mycotoxin is extracted from the comminuted subsample and quantified. Even when using accepted test procedures, there is uncertainty associated with each step of the mycotoxin test procedure. Because of this variability, the true mycotoxin concentration in the lot cannot be determined with 100% certainty by measuring the mycotoxin concentration in a sample taken from the lot. The variability for each step of the mycotoxin test procedure, as measured by the variance statistic, is shown to increase with mycotoxin concentration. Sampling is usually the largest source of variability associated with the mycotoxin test procedure. Sampling variability is large because a small percentage of kernels are contaminated and the level of contamination on a single seed can be very large. Methods to reduce sampling, sample preparation and analytical variability are discussed.

Citing Articles

Dietary Mycotoxins: An Overview on Toxicokinetics, Toxicodynamics, Toxicity, Epidemiology, Detection, and Their Mitigation with Special Emphasis on Aflatoxicosis in Humans and Animals.

Kibugu J, Munga L, Mburu D, Maloba F, Auma J, Grace D Toxins (Basel). 2024; 16(11).

PMID: 39591238 PMC: 11598113. DOI: 10.3390/toxins16110483.

Risk assessment of aflatoxin in Iowa corn post-harvest using an event tree analysis: A case study.

Branstad-Spates E, Mosher G, Bowers E Risk Anal. 2024; 45(1):253-263.

PMID: 39033403 PMC: 11735338. DOI: 10.1111/risa.15074.

T-2 and HT-2 Toxins: Toxicity, Occurrence and Analysis: A Review.

Meneely J, Greer B, Kolawole O, Elliott C Toxins (Basel). 2023; 15(8).

PMID: 37624238 PMC: 10467144. DOI: 10.3390/toxins15080481.

Occurrence and Dietary Risk Assessment of Mycotoxins in Most Consumed Foods in Cameroon: Exploring Current Data to Understand Futures Challenges.

Bouelet Ntsama I, Frazzoli C, Pouokam G, Colizzi V Foods. 2023; 12(8).

PMID: 37107508 PMC: 10137334. DOI: 10.3390/foods12081713.

Understanding Current Methods for Sampling of Aflatoxins in Corn and to Generate a Best Practice Framework.

Donnelly R, Elliott C, Zhang G, Baker B, Meneely J Toxins (Basel). 2022; 14(12).

PMID: 36548716 PMC: 9785018. DOI: 10.3390/toxins14120819.