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Environmental Forensics Volume 20, 2019 - Issue 2
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Articles

Presence of carbamazepine, naproxen, and ibuprofen in wastewater from northern Tunisia

Hassen KhazriLaboratory of Materials, Processing and Analysis (LMTA), National Institute of Research and Physical-Chemical Analysis (INRAP), Biotechpole Sidi Thabet, Ariana, Tunisia;Laboratory of Application Chemistry to the Resources and Natural Substances and the Environment (LACReSNE), Faculty of Science of Bizerte, Bizerte, Tunisia; Correspondence[email protected]
,
Sihem Ben HassineJoint Research Laboratory, Department of Life Sciences, Faculty of Science of Bizerte, Bizerte, Tunisia
,
Ibtissem Ghorbel–AbidLaboratory of Materials, Processing and Analysis (LMTA), National Institute of Research and Physical-Chemical Analysis (INRAP), Biotechpole Sidi Thabet, Ariana, Tunisia;Laboratory of Application Chemistry to the Resources and Natural Substances and the Environment (LACReSNE), Faculty of Science of Bizerte, Bizerte, Tunisia;
,
Rafik KalfatLaboratory of Materials, Processing and Analysis (LMTA), National Institute of Research and Physical-Chemical Analysis (INRAP), Biotechpole Sidi Thabet, Ariana, Tunisia
&
Malika Trabelsi-AyadiLaboratory of Application Chemistry to the Resources and Natural Substances and the Environment (LACReSNE), Faculty of Science of Bizerte, Bizerte, Tunisia;
Pages 121-128 | Published online: 16 Apr 2019

References

  • Agunbiade, F. O., and Moodley, B. 2014. Pharmaceuticals as emerging organic contaminants in Umgeni River water system, KwaZulu-Natal, South Africa. Environmental Monitoring and Assessment 186(11):7273–7291.
  • Amdany, R., Chimuka, L., and Cukrowska, E. 2014. Determination of naproxen, ibuprofen and triclosan in wastewater using the polar organic chemical integrative sampler (POCIS): a laboratory calibration and field application. Water South Africa 40(3):407–414.
  • Andreozzi, R., Raffaele, M., and Nicklas, P. 2003. Pharmaceuticals in STP effluents and their solar photodegradation in aquatic environment. Chemosphere 50:1319–1330.
  • Archer, E., Petrie, B., Kasprzyk-hordern, B., and Wolfaardt, G. M. 2017. The fate of pharmaceuticals and personal care products (PPCPs), endocrine disrupting contaminants (EDCs), metabolites and illicit drugs in a WWTW and environmental waters. Chemosphere 174:437–446.
  • Awodele, O., Fadipe, A. O., Adekoya, M., and Adeyemi, O. O. 2015. Prescribing pattern of non-steroidal anti-inflammatory drugs at the outpatient pharmacy Department of a University Teaching Hospital in Nigeria. Ghana Medical Journal 49:25–29.
  • Bourdat-Deschamps, M., Leanga, S., Bernet, N., Daudin, J.-J., and Nélieuc, S. 2014. Multi-residue analysis of pharmaceuticals in aqueous environmental samples by online solid-phase extraction–ultra-high-performance liquid chromatography-tandem mass spectrometry: optimisation and matrix effects reduction by quick, easy, cheap, effective, rugged and safe extraction. Journal of Chromatography A 1349:11–23.
  • Boyda, G. R., Reemtsmaa, H., Grimmb, D. A., and Mitrac, S. 2003. Pharmaceuticals and personal care products (PPCPs) in surface and treated waters of Louisiana, USA and Ontario, Canada. Science of the Total Environment 311:135–149.
  • Brune, K., and Patrignani, P. 2015. New insights into the use of currently available nonsteroidal. Journal of Pain Research 8:105–118.
  • Bueno, M. J., Gomez, M. J., Herrera, S., Hernando, M. D., Agüera, A., and Fernandez-Alba, A. R. 2012. Occurrence and persistence of organic emerging contaminants and priority pollutants in five sewage treatment plants of Spain: two years pilot survey monitoring. Environmental Pollution 164:267–273.
  • Busar, H. R., Poiger, T., and Muller, M. D. 1998. Occurrence and fate of the pharmaceutical drug diclofenac in surface waters: rapid photodegradation in a lake. Environmental Science and Technology 32:3449–3556.
  • Caldwell, D. J. 2016. Sources of pharmaceutical residues in the environment and their control. Royal Society of Chemistry 41:312.
  • Clara, M., Strenn, B., and Kreuzinger, N. 2004. Carbamazepine as a possible anthropogenic marker in the aquatic environment: investigations on the behaviour of carbamazepine in wastewater treatment and during groundwater infiltration. Water Research 38:947–954.
  • Da Silva, B. F., Jelic, A., Lopez-Serna, R., Mozeto, A. A., Petrovic, M., and Barcelo, D. 2011. Occurrence and distribution of pharmaceuticals in surface water, suspended solids and sediments of the Ebro river basin, Spain. Chemosphere 85(8):1331–1339.
  • Díaz-Gonzalez, F., and Sanchez-Madrid, F. 2015. NSAIDs: learning new tricks from old drugs. European Journal of Immunology 45:679–686.
  • Elsner, M., and Gwenae, I. 2016. Compound-specific isotope analysis (CSIA) of micropollutants in the environment – current developments and future challenges. Current Opinion in Biotechnology 41:60–72.
  • Falås, P., Baillon-Dhumez, A., Andersen, H. R., Ledin, A., and la Cour Jansen, J. 2012. Suspended biofilm carrier and activated sludge removal of acidic pharmaceuticals. Water Research 46(4):1167–1175.
  • Gros, M., Petrović, M., Ginebreda, A., and Barceló, D. 2010. Removal of pharmaceuticals during wastewater treatment and environmental risk assessment using hazard indexes. Environment International 36:15–26.
  • Halling-Sorensen, B., Nors Nielsen, S., Lanzky, P. F., Ingerslev, F., Holten Lutzhoft, H. C., and Jorgensen, S. E. 1998. Occurrence, fate and effects of pharmaceutical substances in the environment – a review. Chemosphere 36:357–393.
  • Heberer, T., Mechlinski, A., Fanck, B., Knappe, A., Massmann, G., Pekdeger, A., and Fritz, B. 2004. Field studies on the fate and transport of pharmaceutical residues in bank filtration. Groundwater Monitoring and Remediation 24(2):70–77.
  • Iglesias, A., Nebot, C., Miranda, J. M., Vázquez, B. I., and Cepeda, A. 2013. Detection and quantitative analysis of 21 veterinary drugs in river water using high-pressure liquid chromatography coupled to tandem mass spectrometry. Journal of Chromatography A 1292:83–95.
  • Kim, S. Y., Chang, Y. J., Cho, H. M., Hwang, Y. W., and Moon, Y. S. 2015. Non-steroidal anti-inflammatory drugs for the common cold. Cochrane Database of Systematic Reviews 9:CD006362.
  • K’Oreje, K. O., Demeestere, K., De Wispelaere, P., Vergeynst, L., Dewulf, J., and Van Langenhove, H. 2012. From multi-residue screening to target analysis of pharmaceuticals in water: development of a new approach based on magnetic sector mass spectrometry and application in the Nairobi River Basin, Kenya. Science of the Total Environment 437:153–164.
  • Kosjek, T., Andersen, H. R., Kompare, B., Ledin, A., and Heath, E. 2009. Fate of carbamazepine during water treatment. Environmental Science & Technology 43:6256–6261.
  • Liu, W., Dang, L., Black, S., and Wei, H. 2008. Solubility of carbamazepine (form III) in different solvents from (275 to 343) K. Journal of Chemical & Engineering Data 53:2204–2206.
  • Lolic, A., Paíga, P., Santos, L. H., Ramos, S., Correia, M., and Delerue-Matos, C. 2015. Assessment of non-steroidal anti-inflammatory and analgesic pharmaceuticals in seawaters of North of Portugal: occurrence and environmental risk. Science of the Total Environment 508:240–250.
  • Madikizela, L. M., and Chimuka, L. 2017. Occurrence of naproxen, ibuprofen and diclofenac residues in wastewater and river water of KwaZulu-Natal Province in South Africa. Journal of Environmental Monitoring and Assessment 189:348.
  • Matamoros, V., Arias, C., Brix, H., and Bayona, J. M. 2009. Preliminary screening of small-scale domestic wastewater treatment systems for removal of pharmaceutical and personal care products. Water Research 43:55–62.
  • Matongo, S., Birungi, G., Moodley, B., and Ndungu, P. 2015. Pharmaceutical residues in water and sediment of Msunduzi River, KwaZulu-Natal, South Africa. Chemosphere 134:133–140.
  • Nishi, I., Kawakami, T., and Onodera, S. 2015. Monitoring the concentrations of nonsteroidal anti-inflammatory drugs and cyclooxygenase-inhibiting activities in the surface waters of theTone Canal and Edo River Basin. Journal of Environmental Science and Health Part A Toxicology Hazardous Substances & Environmental Engineering 50:1108–1115.
  • Ollers, S., Singer, H. P., Fässler, P., and Muller, S. R. 2001. Simultaneous quantification of neutral and acidic pharmaceuticals and pesticides at the low-ng/l level in surface and waste water. Journal of Chromatography A 911:225–234.
  • Petrovic, M., Gros, M., and Barcelo, D. 2006. Multi-residue analysis of pharmaceuticals in wastewater by ultra-performance liquid chromatography–quadrupole–time-of-flight mass spectrometry. Journal of Chromatography A 1124:68–81.
  • Picó, Y., Alfarham, A., and Barceló, D. 2017. Analysis of emerging contaminants and nanomaterials in plant materials following uptake from soils. TrAC Trends in Analytical Chemistry 94:173–189.
  • Stackelberg, P. E., Furlong, E. T., Meyer, M. T., Zaugg, S. D., Henderson, A. K., and Reissman, D. B. 2004. Persistence of pharmaceutical compounds and other organic wastewater contaminants in a conventional drinking-water-treatment plant. Science of the Total Environment 329(1–3):99–113.
  • Ternes, T. A. 1998. Occurrence of drugs in German sewage treatment plants and rivers. Water Research 32:3245–3260.
  • Ternes, T. A., Herrmann, N., Bonerz, M., Knacker, T., Siegrist, H., and Joss, A. 2004. A rapid method to measure the solid-water distribution coefficient (Kd) for pharmaceuticals and musk fragrances in sewage sludge. Water Research 38:4075–4084.
  • Ternes, T. A., Stüber, J., Herrmann, N., McDowell, D., Ried, A., Kampmann, M., and Teiser, B. 2003. Ozonation: a tool for removal of pharmaceuticals, contrast media and musk fragrances from wastewater. Water Research 37:1976–1982.
  • Togola, A., and Budzinski, H. 2008. Multi-residue analysis of pharmaceutical compounds in aqueous samples. Journal of Chromatography A 1177(1):150–158.
  • Tröger, R., Klöckner, P., Ahrens, L., and Wiberg, K. 2018. Micropollutants in drinking water from source to tap – method development and application of a multiresidue screening method. Science of the Total Environment 627:1404–1432.
  • Wait, D. 2000. Evolution of organic analytical methods in environmental forensic chemistry. Environmental Forensics 1:37–46.
  • Ziylan, A., and Ince, N. H. 2011. The occurrence and fate of anti-inflammatory and analgesic pharmaceuticals in sewage and fresh water: treatability by conventional and non-conventional processes. Journal of Hazardous Materials 187:24–36.

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