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Food Additives & Contaminants: Part A Volume 28, 2011 - Issue 11
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Original Articles

Isotherm modeling of organic activated bentonite and humic acid polymer used as mycotoxin adsorbents

R.R. Santos Department of Equine Sciences, Veterinary Pharmaceuticals, Pharmacology and Toxicology Division, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The NetherlandsCorrespondence[email protected]
,
S. Vermeulen Department of Equine Sciences, Veterinary Pharmaceuticals, Pharmacology and Toxicology Division, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands
,
A. Haritova Department of Pharmacology, Physiology of Animals and Physiological Chemistry, Faculty of Veterinary Medicine, Trakia University, Stara Zagora, Bulgaria
&
J. Fink-Gremmels Department of Equine Sciences, Veterinary Pharmaceuticals, Pharmacology and Toxicology Division, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands
Pages 1578-1589 | Received 14 Oct 2010, Accepted 02 Jun 2011, Published online: 20 Jul 2011
 
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Abstract

The aim of the current study was to evaluate and compare two representative samples of different classes of adsorbents intended for use as feed additives in the prevention or reduction of the adverse effects exerted by mycotoxins, specifically ochratoxin A (OTA) and zearalenone (ZEN). The adsorbents, an organically activated bentonite (OAB) and a humic acid polymer (HAP), were tested in a common in vitro model with a pH course comparing the maximum pH changes that can be expected in the digestive system of a monogastric animal, i.e. pH 7.4 for the oral cavity, pH 3.0 for the stomach, and pH 8.4 for the intestines. In the first experiment, the concentration-dependent adsorbent capacity of OAB and HAB were tested using a fixed concentration of either mycotoxin. Thereafter, adsorption was evaluated applying different isotherms models, such as Freundlich, Langmuir, Brunauer–Emmett–Teller (BET) and Redlich–Peterson, to characterize the adsorption process as being either homo- or heterogeneous and representing either mono- or multilayer binding. At the recommended statutory level for the mycotoxins of 0.1 mg kg−1 OTA and 0.5 mg kg−1 ZEN, OAB showed an adsorbed capacity of >96% towards both mycotoxins, regardless of the pH. The HAP product was also able to absorb >96% of both mycotoxins at pH 3.0, but extensive desorption occurred at pH 8.4. Based on χ-square (χ2) values, Langmuir and Redlich–Peterson equations proved to be the best models to predict monolayer equilibrium sorption of OTA and ZEN onto the organically activated bentonite and the humic acid polymer. The applied methodology has a sufficient robustness to facilitate further comparative studies with different mycotoxin-adsorbing agents.

Acknowledgements

Organically activated bentonite and humic acid polymer were kindly provided by Poortershaven Industrial Minerals BV, Rotterdam, The Netherlands.

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