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2. An Aptamer-Based Lateral Flow Biosensor for Low-Cost, Rapid and Instrument-Free Detection of Ochratoxin A in Food Samples.

Author

Mermiga, Electra, Pagkali, Varvara, Kokkinos, Christos, and Economou, Anastasios

Subjects
*BIOSENSORS, *GOLD nanoparticles, *OPTICAL scanners, *COLORIMETRY, *IMAGE analysis, *APPLE juice, *BEER
Abstract

In this work, a simple and cost-efficient aptasensor strip is developed for the rapid detection of OTA in food samples. The biosensor is based on the lateral flow assay concept using an OTA-specific aptamer for biorecognition of the target analyte. The strip consists of a sample pad, a conjugate pad, a nitrocellulose membrane (NC) and an absorbent pad. The conjugate pad is loaded with the OTA-specific aptamer conjugated with gold nanoparticles (AuNPs). The test line of the NC membrane is loaded with a specific OTA-aptamer probe and the control line is loaded with a control probe. The assay is based on a competitive format, where the OTA present in the sample combines with the OTA aptamer-AuNP conjugate and prevents the interaction between the specific probe immobilized on the test line and the OTA aptamer-AuNP conjugates; therefore, the color intensity of the test line decreases as the concentration of OTA in the sample increases. Qualitative detection of OTA is performed visually, while quantification is performed by reflectance colorimetry using a commercial scanner and image analysis. All the parameters of the assay are investigated in detail and the analytical features are established. The visual limit of detection (LOD) of the strip is 0.05 ng mL−1, while the LOD for semi-quantitative detection using reflectance colorimetry is 0.02 ng mL−1. The lateral flow strip aptasensor is applied to the detection of OTA in wine, beer, apple juice and milk samples with recoveries in the range from 91 to 114%. The assay exhibits a satisfactory selectivity for OTA with respect to other mycotoxins and lasts 20 min. Therefore, the lateral flow strip aptasensor could be useful for the rapid, low-cost and fit-for-purpose on-site detection of OTA in food samples. [ABSTRACT FROM AUTHOR]

Published
2023
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4. Oxalamide Based Fe(II)-MOFs as Potential Electrode Modifiers for Glucose Detection.

Author

Oikonomopoulos, Panagiotis, Pagkali, Varvara, Kritikou, Evangelia, Panara, Anthi, Kostakis, Marios G., Thomaidis, Nicolaos S., Tziotzi, Thomais G., Economou, Anastasios, Kokkinos, Christos, and Papaefstathiou, Giannis S.

Subjects
*COORDINATION polymers, *ELECTRODE potential, *X-ray powder diffraction, *GLUCOSE, *METAL-organic frameworks, *COORDINATE covalent bond, *GLUCOSE analysis
Abstract

In an attempt to expand the coordination chemistry of N,N′-bis(2,4-dicarboxyphenyl)-oxalamide (H6L) ligand, we isolated and structurally characterized two new Fe(II) Metal-Organic Frameworks (MOFs), namely [Fe2(H2L)(H2O)5] (3D-Fe-MOF) and [Fe(H4L)(H2O)2]∙2H2O, (2D-Fe-MOF) by carefully adjusting the reaction conditions to achieve the optimal degree of deprotonation of the bridging ligand. Both MOFs were found stable in water, as evidenced by powder X-ray diffraction data and their ability to sorb glucose (GLU) from either an aqueous solution or artificial sweat was investigated only to show negligible sorption. A graphite paste sensor (GPE) using the 3D-Fe-MOF as a modifier was fabricated. The 3D-Fe-MOF modified GPE was assessed for non-enzymatic GLU detection in aqueous solution at pH 6 via differential pulse voltammetry and the preliminary results were discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Ανάπτυξη οπτικών ανοσοαισθητήρων για την ταυτόχρονη ανίχνευση τοξικών ουσιών σε τρόφιμα

Author

Pagkali Varvara

Subjects
Θετικές Επιστήμες, Science
Abstract

Στην παρούσα διατριβή αναπτύχθηκε οπτικός βιοαισθητήρας τύπου Mach-Zehnder για τον προσδιορισμό χωρίς τη χρήση ιχνηθετών τεσσάρων μυκοτοξινών, ωχρατοξίνης Α (ΟΤΑ), αφλατοξίνης Β1 (AFB1), φουμονισίνης Β1 (FB1) και δεοξυνιβαλενόλης (DON), σε δείγματα μπύρας. Ο αισθητήρας βασίστηκε σε μια συστοιχία από δέκα συμβολόμετρα Mach-Zehnder (MZI), κάθε ένα μονολιθικά ολοκληρωμένο με την αντίστοιχη ευρέος φάσματος πηγή φωτός, σε μια μόνο ψηφίδα πυριτίου. Ο προσδιορισμός πολλαπλών αναλυτών επετεύχθη με ακινητοποίηση διαφορετικών ειδικών δεσμευτικών αντιδραστηρίων (προϊόντα συζεύξεως μυκοτοξίνης-πρωτεΐνης) στους διαφορετικούς αισθητήρες της ίδιας ψηφίδας. Η ανάλυση διεξήχθη με διαβίβαση, μέσω εξωτερικής αντλίας, πάνω από τις ψηφίδες, μιγμάτων βαθμονομητών ή δειγμάτων με διαλύματα των ειδικών μονοκλωνικών αντισωμάτων,, ακολουθούμενη από αντίδραση με διάλυμα αντισώματος αίγας κατά των γ-σφαιρινών ποντικού. Οι αντιδράσεις παρακολουθήθηκαν σε πραγματικό χρόνο με συνεχή καταγραφή των φασμάτων εξόδου, τα οποία στη συνέχεια υποβλήθηκαν σε διακριτό μετασχηματισμό Fourier για να μετατραπούν οι μετατοπίσεις του φάσματος σε μετατοπίσεις φάσεων. Τα όρια ανίχνευσης που επιτεύχθηκαν για τις AFB1, FB1, DON και ΟΤΑ σε μπύρα ήταν 0,8, 5,6, 20 και 2,0 ng/ml αντίστοιχα, ενώ η διάρκεια της ανάλυσης κατά τον ταυτόχρονο προσδιορισμό των AFB1, FB1 και DON ήταν 12 λεπτά, ενώ για τον μεμονωμένο προσδιορισμό της ΟΤΑ 50 λεπτά. Οι τιμές ανάκτησης κυμάνθηκαν από 85 έως 116% σε δείγματα μπύρας με γνωστές συγκεντρώσεις των τεσσάρων μυκοτοξινών. Επιπλέον, αναλύθηκαν μπύρες διαφορετικών τύπων και προέλευσης με τον αναπτυχθέντα βιοαισθητήρα και τα αποτελέσματα συγκρίθηκαν με εκείνα που παρήχθησαν από καθιερωμένες εργαστηριακές μεθόδους, υποστηρίζοντας περαιτέρω την ακρίβεια του προτεινόμενου βιοαισθητήρα. In this thesis a label-free optical biosensor for the fast simultaneous determination of three mycotoxins, aflatoxin B1 (AFB1), fumonisin B1 (FB1) and deoxynivalenol (DON) and for the determination of ochratoxin A (OTA) in beer samples is presented. The biosensor is based on an array of ten Mach-Zehnder interferometers (MZIs) monolithically integrated along with their respective broad-band silicon light sources onto a single chip (37mm2). Multi-analyte determination is accomplished by functionalizing the sensing arms of individual MZIs with mycotoxin-protein conjugates. Assay is performed by pumping over the chip mixtures of calibrators or samples with a mixture of specific monoclonal antibodies, followed by reaction with a secondary anti-mouse IgG antibody. An external miniaturized spectrometer was employed to continuously record the transmission spectra of each interferometer. Spectral shifts obtained due to immunoreactions were transformed to phase shifts through Discrete Fourier Transform. The detection limits achieved for AFB1, FB1, DON and OTA were 0.8, 5.6, 20 and 2,0 ng/ml in beer, respectively, while the assay duration for AFB1, FB1, DON was 12 min and for OTA 50 min. Recovery values ranging from 85 to 116% were determined in beer samples spiked with known concentrations of the four mycotoxins. In addition, beers of different types and origin were analysed with the biosensor developed and the results were compared with those provided by established laboratory methods, further supporting the accuracy of the proposed device. The good analytical performance of the biosensor and the small size of the proposed chip provide for the development of a portable instrument for point-of-need determinations.

Published
2019

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