药用化合物在环境中从救命成分到威胁生命成分的生命周期 - 纳米技术在治疗中的创新应用

Shoaib Hussain , Talib E. Butt , Hina Akram , Hina Fida
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引用次数: 0

摘要

抗生素用于治疗人类和动物的传染性疾病。抗生素被归类为持久性有机污染物(POPs),会破坏免疫系统,对人类和动物的健康构成重大威胁。未被吸收的抗生素通过废水排入环境,并在土壤中积累,被植物和地下水吸收。这些残留抗生素从土壤和地下水中进入食物链的各个环节,然后进入人体或动物体内。这些残留抗生素会导致微生物产生抗药性,从而使这些抗生素无法有效治疗疾病。接触持久性有机污染物抗生素的途径有直接和间接两种,例如食用受污染的肉类、牛奶和蔬菜等食物,从而改变体内的微生物平衡。许多科学研究都在环境样本中检测到了抗生素的残留量,强调了污染的广泛性。废水是生态系统中污染最严重的部分,是引入抗生素的主要来源,而土壤则位居第二,影响着植物中抗生素的积累和地下水的浸出。抗生素的降解是通过不同类型的过程进行的,如臭氧氧化、芬顿试剂氧化和光催化氧化过程。光催化降解技术被认为是最适合去除抗生素污染物的技术,它具有高矿化率、高效率,而且操作简单、成本效益高。对光催化剂降解抗生素的研究表明,光照强度、照射时间、pH 值、催化剂数量、温度和溶液透明度等因素都会影响其功效。尽管有望去除污水中的抗生素废物,但实现完全去除仍是一项挑战,因此有必要研究光催化剂的稳定性和处理机制,以全面去除抗生素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Life cycle of medicinal compounds from life saving to life threating component in environment – Innovative use of nanotechnology for treatment
Antibiotics are used for treatment and cure infectious diseases in human and animal’s medication. Antibiotics, classified as Persistent Organic Pollutants (POPs), present a significant threat to human and animal health by undermining immune systems. Unabsorbed antibiotics discharged out enter in environment through wastewater and accumulate in soil for absorption in plants and groundwater. From soil and ground water these residual level antibiotics become part of food chain segments and then enter in human or animal body. These residual antibiotics causes resistance in microbes and thus these antibiotics become ineffective in treatment of diseases. Exposure to antibiotic POPs occurs through direct and indirect routes, such as consuming contaminated food like meat, milk, and vegetables, altering the body's microbial balance. Numerous scientific studies have detected residual antibiotic levels in environmental samples, emphasizing the widespread contamination. Wastewater is the most polluted ecosystem segment, acting as the primary source of antibiotic introduction, while soil ranks second, influencing antibiotic accumulation in plants and groundwater leaching. Degradation of antibiotics has been carried out by means of different type of processes like ozonation, Fenton reagent oxidation, and photocatalytic oxidation processes. The photocatalytic degradation technique is considered most appropriate for the removal of antibiotics pollutants with high mineralization rate, high efficiency, and are quite simple in operation with cost effective. Research on photocatalysts for antibiotic degradation reveals factors like light intensity, exposure time, pH, catalyst quantity, temperature, and solution clarity affecting efficacy. Although promising for removing antibiotic waste from effluents, achieving complete removal remains a challenge, necessitating investigation into photocatalyst stability and treatment mechanisms for comprehensive antibiotic elimination.
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