Safe detoxification on acid-washed activated carbon combined with chitosan for aflatoxins from contaminated peanut oil

IF 2.6 4区 医学 Q2 MYCOLOGY
Junmin Ji, Yan Wang, Changjiang Li, Fengyao Xu, Miaomiao Jiang
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Abstract

Aflatoxins are one of the most toxic mycotoxins and can cause serious harm to humans and animals. Adsorption is a practical decontamination technique favored by the industry because of its advantages of low cost, speed and simplicity, and environmental friendliness. In this work, the adsorption features of activated carbon and chitosan were fabricated in a composite through chemical co-precipitation to improve its properties for adsorption. Furthermore, the capacity of the synthesized chitosan and acid-washed activated carbon composite (CS-AAC) to attenuate the aflatoxins in contaminated peanut oil and the adsorption capacity at different initial aflatoxins content, contact duration, and temperature were evaluated. The results showed a higher adsorption capacity (removal efficiency to 93.45% of AFB1, 94.05% of AFB2, 89.16% of AFG1, 83.26% of AFG2). The Freundlich isothermal and D–R model and the pseudo-second-order rate expression both implied a good correlation with the test data and explained the adsorption mechanism well. The adsorption mechanism was found to be accomplished primarily via ion exchange and chelation. According to thermodynamic results (△G < 0, △H > 0, △S > 0), the adsorption process was endothermic and spontaneous. Compared to acid-washed activated carbon, CS-AAC enhanced the retention of VE and sterols (especially VE by 23%), and the safety of CS-AAC adsorbent was explored by cellular experiments. In conclusion, CS-AAC is a promising adsorbent material for the removal of aflatoxins from edible oils.

Abstract Image

酸洗活性炭与壳聚糖结合的安全解毒法处理受污染花生油中的黄曲霉毒素
黄曲霉毒素是毒性最大的霉菌毒素之一,可对人类和动物造成严重危害。吸附法因其成本低廉、快速简便、环保等优点,是一种受到业界青睐的实用去污技术。本研究通过化学共沉淀的方法,将活性炭和壳聚糖制成具有吸附特性的复合材料,以改善其吸附性能。此外,还评估了合成的壳聚糖和酸洗活性炭复合材料(CS-AAC)对污染花生油中黄曲霉毒素的吸附能力,以及在不同的黄曲霉毒素初始含量、接触时间和温度下的吸附能力。结果表明,该方法具有较高的吸附能力(对 AFB1 的去除率为 93.45%,对 AFB2 的去除率为 94.05%,对 AFG1 的去除率为 89.16%,对 AFG2 的去除率为 83.26%)。Freundlich 等温模型和 D-R 模型以及伪二阶速率表达式都与试验数据有很好的相关性,很好地解释了吸附机理。研究发现,吸附机理主要是通过离子交换和螯合作用实现的。根据热力学结果(△G <0,△H >0,△S >0),吸附过程是内热和自发的。与酸洗活性炭相比,CS-AAC提高了VE和甾醇的保留率(尤其是VE提高了23%),并通过细胞实验探讨了CS-AAC吸附剂的安全性。总之,CS-AAC 是一种有望去除食用油中黄曲霉毒素的吸附材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Mycotoxin Research
Mycotoxin Research MYCOLOGYTOXICOLOGY-TOXICOLOGY
CiteScore
6.40
自引率
6.70%
发文量
29
期刊介绍: Mycotoxin Research, the official publication of the Society for Mycotoxin Research, is a peer-reviewed, scientific journal dealing with all aspects related to toxic fungal metabolites. The journal publishes original research articles and reviews in all areas dealing with mycotoxins. As an interdisciplinary platform, Mycotoxin Research welcomes submission of scientific contributions in the following research fields: - Ecology and genetics of mycotoxin formation - Mode of action of mycotoxins, metabolism and toxicology - Agricultural production and mycotoxins - Human and animal health aspects, including exposure studies and risk assessment - Food and feed safety, including occurrence, prevention, regulatory aspects, and control of mycotoxins - Environmental safety and technology-related aspects of mycotoxins - Chemistry, synthesis and analysis.
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