高静水压力对各种食品基质中盐酸四环素和磺胺噻唑残留的影响——与超声和热处理的比较

Nikolaos D Sidirokastritis, Ioannis Tsiantoulas, C. Tananaki, P. Vareltzis
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引用次数: 2

摘要

摘要食品中抗生素残留给消费者带来了严重的直接和间接风险。本研究旨在探讨高压静水对蜂蜜、牛奶和水中盐酸四环素(TCH)和磺胺噻唑(STZ)残留的影响。测试了三种不同压力的处理效率,最终选择580 MPa处理6 min。采用HPLC和LC-MS对抗生素进行定性和定量测定。将HHP处理与超声和热处理进行比较。研究发现,对水和牛奶中的抗生素,HHP治疗比其他两种方法更有效。蜂蜜中STZ的减少超过90%,而TCH没有减少。水中HHP处理后的TCH降低率最高(76.4%),蜂蜜中超声处理后的STZ降低率最高(94.3%)。两种抗生素在不同基质中的减少没有遵循相似的模式。对于HHP的处理,研究了两种抗生素在冷藏和冷冻两种不同储存条件下初始浓度的影响。在STZ和TCH的两种储存条件下,该方法的有效性都受到初始浓度的影响,而TCH只有在冷藏条件下才有显著差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of high hydrostatic pressure on tetracycline hydrochloride and sulfathiazole residues in various food matrices – comparison with ultrasound and heat treatment
Abstract Antibiotic residues in food pose serious direct and indirect risks for consumers. The aim of this study was to investigate the effect of High Hydrostatic Pressure (HHP) on tetracycline hydrochloride (TCH) and sulfathiazole (STZ) residues in honey, milk, and water. Three different pressures were tested for their efficiency and treatment at 580 MPa for 6 min was finally selected. Qualitative and quantitative determination of antibiotics were performed with HPLC and LC-MS. HHP treatment was compared to ultrasound and heat treatment. HHP treatment was found to be more effective than the other two methods for both antibiotics in water and milk. The reduction of STZ in honey was over 90%, while no reduction was observed for TCH. The highest TCH reduction was recorded after HHP treatment in water (76.4%) and the highest STZ reduction after ultrasound treatment in honey (94.3%). Reduction of the two antibiotics in different matrices did not follow a similar pattern. For the HHP treatment, the effect of the initial concentration of the two antibiotics was studied under two different storage conditions (refrigerated and frozen storage). The effectiveness of the method was found to be affected by the initial concentration, in both storage conditions for STZ, while for TCH significant differences were observed only for refrigerated storage.
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