Pharmaceutical residues in water and sediment of Msunduzi River, KwaZulu-Natal, South Africa

Matongo, Solomon; Birungi, Grace; Moodley, Brenda; Ndungu, Patrick

doi:10.1016/j.chemosphere.2015.03.093

Cited by 233 publications

(109 citation statements)

References 27 publications

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“…Most common non-steroidal anti-inflammatory drugs (NSAIDs) with the exception of fenoprofen have been imprinted and their MIPs were applied in the form of MISPE from environmental samples [29]. This is expected as NSAIDs are classified as the most consumed pharmaceuticals by humans with antipyretic activities in some countries such as South Africa [64]. The emerging environmental pollutants such as antiretroviral drugs (ARVs) are imprinted [63,65], however, there is still limited/no information on their environmental extraction using MISPE.…”

Section: Molecularly Imprinted Solid-phase Extractionmentioning

confidence: 99%

Molecularly Imprinted Polymers for Pharmaceutical Compounds: Synthetic Procedures and Analytical Applications

Madikizela¹,

Tavengwa²,

Pakade³

2018

Recent Research in Polymerization

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In this chapter, the synthetic procedures for molecularly imprinted polymers (MIPs) for pharmaceutical compounds are discussed. Regardless of its limitations, such as production of irregular particles and loss of sample during processing (crushing and sieving), bulk polymerization has been widely used compared to say precipitation and suspension polymerization partly due to its simplicity in synthesis and robustness. A comparison of indomethacin removal from aqueous solution by MIP particles prepared using bulk polymerization to those obtained from suspension polymerization showed that the particles from the former exhibited higher adsorption capacity. Furthermore, the chapter explores the strengths and limitations relating the use of pharmaceutical compounds as uni-templates, multi-templates and dummy templates. Also, the analytical applications of MIPs are discussed in more details with particular focus on molecularly imprinted solid-phase extraction (MISPE) of pharmaceuticals from environmental samples. This application (MISPE) is currently the most exploited in literature as more pharmaceutical drugs find their way into environmental water bodies.

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Section: Molecularly Imprinted Solid-phase Extractionmentioning

confidence: 99%

Molecularly Imprinted Polymers for Pharmaceutical Compounds: Synthetic Procedures and Analytical Applications

Madikizela¹,

Tavengwa²,

Pakade³

2018

Recent Research in Polymerization

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“…Although there is enough evidence on the occurrence of NSAIDs in European water bodies (Carmona et al, 2014;Yu et al, 2006;Rodil et al, 2012;Togola and Budzinski, 2007) (Agunbiade and Moodley, 2014;Agunbiade and Moodley, 2016;Amdany et al, 2015;Gumbi et al, 2017;Madikizela and Chimuka, 2016;Matongo et al, 2015a;Matongo et al, 2015b). These published studies report the concentration of selected pharmaceuticals in aqueous samples collected from a few geographical areas of the Gauteng and KwaZulu-Natal provinces of South Africa.…”

Section: Introductionmentioning

confidence: 99%

“…These published studies report the concentration of selected pharmaceuticals in aqueous samples collected from a few geographical areas of the Gauteng and KwaZulu-Natal provinces of South Africa. For example, most studies reported for KwaZulu-Natal Province focused on environmental pollution in the north of the city of Durban and in locations around Pietermaritzburg (Agunbiade and Moodley, 2014;Agunbiade and Moodley, 2016;Gumbi et al, 2017;Madikizela and Chimuka, 2016;Matongo et al, 2015a;Matongo et al, 2015b). Therefore, more work is required in order to assess the extent of water pollution in several regions of South Africa.…”

Section: Introductionmentioning

confidence: 99%

Simultaneous determination of naproxen, ibuprofen and diclofenac in wastewater using solid-phase extraction with high performance liquid chromatography

Madikizela

Chimuka

2017

WSA

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“…Given the ecological risk and adverse health effects associated with exposure of humans to EDC, their removal from the environment should be the utmost priority of stakeholders. Li et al (2015) Groundwater and surface water PAHs -Bangladesh Mandal et al (2015) Surface water Polychlorinated biphenyls (PCBs) 0.93-13.07 ng/l China Yang, Xie, Liu, and Wang (2015) Wastewater and surface water Alkylphenolic chemicals (APs) -USA Barber et al (2015) Wastewater Pharmaceutical residues 117 μg/l South Africa Matongo, Birungi, Moodley, and Ndungu (2015) Surface water Pharmaceutical residues 84.60 μg/l Unfortunately, removal of EDC by most wastewater treatment plants seems to be inefficient as there is no specific unit designed to eliminate EDC in the present wastewater treatment technology (Zhang, Li, Wang, Niu, & Cai, 2016). Auriol, Filali-Meknassi, Tyagi, Adams, and Surampalli (2006) made the following observations with the use of some conventional treatment processes for removal of EDC in wastewater: Coagulation with the use of "iron and aluminum salts" did not support any EDC removal; however, coagulation involving powdered activated carbon (PAC) removed a significant amount of "small-sized contaminants" including EDC, while filtration processes, which allowed quite high EDC removal, are costly and involve a substantial maintenance in order to prevent membrane clogging.…”

mentioning

confidence: 99%

Ligninolytic enzymes: Versatile biocatalysts for the elimination of endocrine‐disrupting chemicals in wastewater

et al. 2018

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Direct municipal wastewater effluent discharge from treatment plants has been identified as the major source of endocrine‐disrupting chemicals (EDC) in freshwaters. Consequently, efficient elimination of EDC in wastewater is significant to good water quality. However, conventional wastewater treatment approaches have been deficient in the complete removal of these contaminants. Hence, the exploration of new and more efficient methods for elimination of EDC in wastewater is imperative. Enzymatic treatment approach has been suggested as a suitable option. Nonetheless, ligninolytic enzymes seem to be the most promising group of enzymes for EDC elimination, perhaps, owing to their unique catalytic properties and characteristic high redox potentials for oxidation of a wide spectrum of organic compounds. Therefore, this paper discusses the potential of some ligninolytic enzymes (laccase, manganese peroxidase, and versatile peroxidase) in the elimination of EDC in wastewater and proposes a new scheme of wastewater treatment process for EDC removal.

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Pharmaceutical residues in water and sediment of Msunduzi River, KwaZulu-Natal, South Africa

Cited by 233 publications

References 27 publications

Molecularly Imprinted Polymers for Pharmaceutical Compounds: Synthetic Procedures and Analytical Applications

Molecularly Imprinted Polymers for Pharmaceutical Compounds: Synthetic Procedures and Analytical Applications

Simultaneous determination of naproxen, ibuprofen and diclofenac in wastewater using solid-phase extraction with high performance liquid chromatography

Ligninolytic enzymes: Versatile biocatalysts for the elimination of endocrine‐disrupting chemicals in wastewater

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