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Contamination of drinking water with pharmaceuticals is an emerging problem and a potential health threat. Immunochemical methods based on the binding of the analyte to specific antibodies enable fast & cost-effective on-site analyses. Magnetic bead-based immunoassays allow for implementation into an immunosensor for online testing. Particles are prepared by either coupling the analyte molecule (diclofenac) or the respective antibody (amoxicillin) to the surface. For miniaturization, detection is performed electrochemically (chronoamperometry) on a microfluidic chip. The developed immunosensor will enable detection of pharmaceuticals directly in water supply pipes.
Contamination of drinking water with pharmaceuticals is an emerging problem and a potential health threat. Immunochemical methods based on the binding of the analyte to specific antibodies enable fast and cost-effective on-site analyses. Magnetic bead-based immunoassays allow for implementation into an immunosensor for online testing. These particles are prepared by either coupling the analyte molecule (diclofenac) or the respective antibody (amoxicillin) to the surface. For miniaturization, detection is performed electrochemically on a microfluidic chip. The developed immunosensor will enable detection of pharmaceuticals directly in water supply pipes.
Die zunehmende Kontamination von (Trink)-Wasser mit pharmazeutischen Rückständen stellt ein potenzielles Gesundheitsrisiko dar und verlangt nach schnellen und zuverlässigen Analysemethoden. Hierbei können antikörper-basierte Methoden helfen, da sie schnelle und kostengünstige Vor-Ort-Messungen sowie Onlineanalysen ermöglichen.
Der Übergang von konventionellen plattenbasierten Formaten, wie ELISA (Enzyme-linked Immunosorbent Assay), zu einem Immunosensor für Online-Messungen wird durch den Einsatz magnetischer Mikropartikel als mobile Messplattform ermöglicht.
Die Partikel werden dazu entweder mit dem Antikörper oder dem Analyten gekoppelt. Diese beiden Strategien werden am Beispiel zweier relevanter Kontaminanten des Wassers gezeigt: Diclofenac (DCF) & Amoxicillin (AMX), und sind leicht auf andere Analyten übertragbar. Die magnetpartikelbasierten Assays (MBBAs) weisen niedrigere Nachweisgrenzen, breitere Messbereiche sowie kürzere Analysezeiten als die entsprechenden ELISAs auf und können in einen Immunosensor mit elektrochemischer Detektion auf einem mikrofluidischen Chip integriert werden.
The demand for quick and reliable online sensors is rising not only in the field of environmental analysis with new and diversifying sources of pollution. A major aspect of this is the contamination of (drinking) water with pharmaceuticals representing a potential health threat and requiring timely countermeasures in case of contamination.
In this regard, antibody-based methods can be helpful as they enable fast and cost-effective on-site and potentially online analyses. The transition from the conventional plate-based formats like ELISA (enzyme-linked immunosorbent assay) to an immunosensor fit for online sensing can be achieved by using magnetic microparticles as a mobile sensing platform.
Beads are prepared by either coupling the antibody or the analyte to the surface. Both these strategies are presented using the example of two relevant contaminants in water: diclofenac (DCF) & amoxicillin (AMX), and can be transferred to other analytes.
The developed magnetic bead-based assays (MBBAs) exhibit lower LODs, enhanced sensitivity as well as shorter time of analysis than the respective ELISAs and can be integrated into an immunosensor with electrochemical detection on a microfluidic chip.