Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/3822
Title: Optimization of extraction techniques for the isolation and pre-concentration of pharmaceuticals in aquatic environments
Authors: Sigonya, Sisonke 
Issue Date: 2021
Abstract: 
The occurrence of pharmaceuticals in South African aquatic environments has been reported
in several studies. However, most of these reports focused on the occurrence of organic
compounds in wastewater and surface water. There are very few studies reporting the presence
and concentration of these compounds in seawater and coastal areas. Further, most studies have
looked at only on one season. This study focussed on the optimisation of a SPE extraction
method using Bond Elut Plexa cartridges for the identification and quantification three nonsteroidal anti-inflammatory drugs (NSAIDs), three antiretroviral drugs (ARVs) and a lipid
regulator in coastal area of Durban city, South Africa covering four seasons. The optimised
SPE conditions were as follows: 500 mL sample volume and at pH 5.8, 5 and 5 mL as
conditioning and elution volumes, respectively. The flow rate ranging from 5 to 10 mL/min 10
and 5 mL/min as sample and elution flow rates. The extracted compounds were qualitatively
and quantitatively detected by a high-performance liquid phase chromatographic instrument
coupled to a photodiode array detector (HPLC-PDA). The recoveries ranged from 62 -102%
with RSD values of 0.56 to 4.68% respectively for the determination of emtricitabine,
tenofovir, naproxen, diclofenac, ibuprofen, efavirenz, and gemfibrozil. The analytical method
was validated by spiking estuarine water samples with 5 µg L-1
of a mixture containing the
target pharmaceuticals and the matrix detection limits (MDL) were established to be 0.62- 1.78
µg L-1
for the target compounds. The optimized method was applied to seasonal monitoring of
pharmaceuticals at chosen study sites from winter and spring of 2019 and summer and autumn
of 2020.The sum of emerging pollutants (ƩEP) were calculated based on each study site. The
influent of the Kingsburgh WWTP (EFK) had the highest ƩEP of 144.88 µg L-1
in winter
between the two wastewater treatment plants area in this study. The Northern WWTP influent
(INN) had a total ƩEP of 117.11 µg L-1
in autumn, the Kingsburgh WWTP effluent (EFK) had
a concentration 63.8 µg L-1
in autumn and a concentration 63.8 µg L-1
in summer and the Northern (EFN) had a total ƩEP of 43.97 µg L-1
in winter. A comparison between UMgeni
(UR) and Kingsburgh river (KR) showed that the KR had the highest concentration of total
ƩEP of 22.66 µg L-1
and UR with the total ƩEP of 18.3 µg L-1
both in winter and spring,
respectively. The seawater EPs Blue Lagoon (BL) had the highest ƩEP of 46.75 µg L-1
in
spring, subsequently Warner Beach bottom (WBB), Glen Ashley (GA) and Warner Beach top
(WBT) with concentrations of 24.96 µg L-1
in summer, 13.29 µg L-1 in spring and 6.94 µg L-1
in autumn, respectively. Estuarine EPs had concentrations of 37.9 µg L-1
and 20.97 µg L-1 for Warner beach estuary (WE) and UMgeni estuary (UE) in winter. WBE having the highest
concentration between the two. This showed a significant variation on the presence of these
pharmaceuticals in different season.
Description: 
Dissertation submitted in fulfilment of the requirements for the degree Master of Applied Science: Chemistry, Durban University of Technology, 2021.
URI: https://hdl.handle.net/10321/3822
DOI: https://doi.org/10.51415/10321/3822
Appears in Collections:Theses and dissertations (Applied Sciences)

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