Sueli Ivone Borrely, Marcelo Miyada Redígolo, Bruno David Quiroz Villardi, Daniel Temponi Lebre, Flávio Kiyoshi Tominaga
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引用次数: 0
摘要
近年来,环境研究日益关注废水中抗生素的存在,这有助于抗菌素耐药性的建立。根据世界卫生组织(World Health Organization)的数据,阿莫西林是全球消耗量最大的抗生素之一,因为它是治疗常见感染的一线药物。在几种药物降解方法中,电子束辐照(EBI)是一种高效、绿色的处理方法。这项工作通过EBI提供了阿莫西林降解的数据。采用费氏弧菌进行生态毒性试验,TOC法评价碳去除率,LC/MS-MS法评价降解率。色谱结果表明,0.75 kGy后药物浓度降低97.9%;TOC结果表明,在3.0 kGy下碳去除率为10%;毒性试验表明,在0.75 kGy时毒性脱除率为80%,而剂量越高,效率越低。综上所述,0.75 kGy是EBI去除药物的最有效剂量。
Degradation and Toxicity of Amoxicillin After Electron Beam Irradiation
A recent and growing concern in environmental studies is the presence of antibiotics in wastewater, which contributes to antimicrobial resistance building. Amoxicillin, according to the World Health Organization, is one of the most consumed antibiotics worldwide, for being a first line therapy for common infections. Among several drug degradation methodologies, electron beam irradiation (EBI) is presented as an efficient and green treatment. This work presents data on amoxicillin degradation via EBI. Ecotoxicity essays were performed employing Vibrio fischeri, carbon removal efficiency was evaluated by TOC and degradation rate by LC/MS-MS. Chromatographic results indicate a 97.9% drug concentration reduction after 0.75 kGy; TOC results indicate 10% carbon removal at 3.0 kGy; toxicity assays indicate 80% in removal of toxicity at 0.75 kGy and a decrease in efficiency with higher doses. In conclusion, results indicate the 0.75 kGy as most effective for drug removal employing EBI.
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