Determination of aflatoxin biomarkers in excreta and ileal content of chickens.

Aflatoxins are carcinogenic secondary metabolites frequently detected in food and feed stuff based on maize and other crops susceptible to infection with the fungal pathogen Aspergillus flavus. We investigated the metabolization of aflatoxins in chickens by analyzing excreta and ileal content and developed and validated a biomarker method for detection of aflatoxins and their metabolites in these matrices. Analysis of ileal content served to distinguish between urinary and fecal excretion combined in the excreta samples. During a 3-wk animal trial, one hundred sixty-eight 1-day-old chicks were randomly allocated to 24 pens with 7 chicks per pen and subjected to different feed regimens with: A) toxin-free feed, B) feed supplemented with 18 ng of total aflatoxins/g, and C) feed supplemented with 515 ng of total aflatoxins/g. Chicken excreta and ileal content were sampled after 7, 14, and 21 D. An analytical method based on liquid chromatography coupled to tandem mass spectrometry was validated for the determination of aflatoxin B1, B2, G1, G2, M1, P1, Q1, and aflatoxin B1-N7-guanine (AFB1-N7-Gua) in chicken's samples. Comparing chicken excreta, which contain urine and feces, to ileal content, which contains no urine, we explored the secretion pathway of aflatoxin metabolites. The AFB1-N7-Gua was only detected in excreta, whereas aflatoxin M1 (AFM1) was detected both in ileal content and excreta. Aflatoxin M1 was detected in excreta in concentrations 5 times higher than in ileal content, suggesting primary excretion via urine. Although chickens are relatively resistant to aflatoxins, contamination of feed can lead to adverse effects and thus economic losses in farming. Therefore, a biomarker method to estimate the exposure of chickens to aflatoxins can play an important role to monitor the animals' health.

Investigation of various adsorbents for their ability to bind aflatoxin B1.

The contamination of animal feed with mycotoxins represents a worldwide problem for the animal industry. The most applied method for protecting animals against aflatoxicosis is the utilization of clay minerals. In the course of a research project adsorption experiments were performed in buffer solutions in order to evaluate the ability to bind Aflatoxin B1 (AfB1) at various pH-values. In order to investigate the strength of binding, the chemisorption index was calculated. Isothermal analysis was used to determine the values for the maximum adsorption capacity. Adsorption experiments in simulated gastrointestinal fluid and real gastric juice were carried out. Furthermore binding capability of the materials regarding selected vitamins was examined. Special attention was paid to the formation of AfB2a during experimental conditions. Based on the obtainedin vitro results, highly promising sorbent materials were ranked for furtherin vivo studies. Some adsorbing bentonites were also analysed mineralogically, but the results did not indicate which smectite property influences the adsorption process for AfB1.

Toxicity of ochratoxin A in aBrevibacillus brevis - Growth inhibition assay.

Ochratoxin A (OTA) is a nephrotoxic, carcinogenic and immunosuppressive mycotoxin. It can be detoxified by various microorganisms, e.g. different yeast strains, via metabolisation into ochratoxin α (OTα). Within this study a growth inhibition assay was developed to compare the toxicity of OTA and its degradation product OTα. As an indicator organismBrevibacillus brevis was used. The assay was performed in microtiterplates. Growth inhibition was determined by comparing the optical density values ofBrevibacillus brevis cultures grown in medium supplemented with OTA/OTα and OTA/OTα-free medium, respectively.It could be shown thatB. brevis is sensitive to OTA (EC100=0.5 mg/L±0.03 mg/L), which is not the case for its metabolite OTα. Therefore this bioassay is a useful tool to show the detoxification of OTA to OTα by microbial degradation.

Determination of fumonisins and hydrolyzed fumonisin B1 in microbial culture media by LC/ESI-MS.

In order to analyze liquid growth media for fumonisin B1, B2 and hydrolyzed fumonisin B1 (HFB1) after incubation with microorganisms for degradation studies, a liquid chromatography/electrospray ionisation mass spectrometry (LC/ESI-MS) method was developed. The use of phytosphingosine hydrochloride (PSH) and T-2-toxin-d3 (T2d3) as internal standard has been tested. The detection limit established with PSH as an internal standard was about 20 ng/mL for FB1 and FB2 and about 50 ng/mL for HFB1. The developed method allows the rapid, simultaneous and quantitative determination of these analytes in microbial culture media without any cleanup.