Disposable amperometric magneto-immunosensor for direct detection of tetracyclines antibiotics residues in milk

The preparation and performance of a disposable amperometric magneto-immunosensor, involving the use of a selective capture antibody immobilized on the surface of protein G-functionalized magnetic beads (ProtG-MBs) and screen-printed carbon electrodes (SPCEs), for the specific detection and quantification of tetracyclines (TCs) residues in milk is reported. A direct competitive immunoassay using a tracer with horseradish peroxidase (HRP) for the enzymatic labeling was performed. The amperometric response measured at −0.2 V vs. the silver pseudo-reference electrode of the SPCE upon the addition of H₂O₂ in the presence of hydroquinone (HQ) as redox mediator was used as transduction signal. The developed methodology showed very low limits of detection (in the low ppb level) for 4 tetracycline antibiotics tested in untreated milk samples, and a good selectivity against other antibiotic residues frequently detected in milk and dairy products. The usefulness of the magneto-immunosensor was demonstrated by analyzing UHT whole milk samples spiked with 44 ng mL⁻¹ tetracycline (TC) as well as a reference milk containing a certified oxytetracycline (OTC) content. These features, together with the short analysis time (30 min), the simplicity, and easy automation and miniaturization of the required instrumentation make the developed methodology a promising alternative in the development of devices for on-site analysis.     

Sensitive and rapid amperometric magnetoimmunosensor for the determination of <Emphasis Type="Italic">Staphylococcus aureus</Emphasis>

The preparation and characteristics of a disposable amperometric magnetoimmunosensor, based on the use of functionalized magnetic beads (MBs) and gold screen-printed electrodes (Au/SPEs), for the specific detection and quantification of Staphylococcal protein A (ProtA) and Staphylococcus aureus (S. aureus) is reported. An antiProtA antibody was immobilized onto ProtA-modified MBs, and a competitive immunoassay involving ProtA antigen labelled with HRP was performed. The resulting modified MBs were captured by a magnetic field on the surface of tetrathiafulvalene-modified Au/SPEs and the amperometric response obtained at −0.15 V vs the silver pseudo-reference electrode of the Au/SPEs after the addition of H₂O₂ was used as transduction signal. The developed methodology showed very low limits of detection (1 cfu S. aureus/mL of raw milk samples), and a good selectivity against the most commonly involved foodborne pathogens originating from milk. These features, together with a short analysis time (2 h), the simplicity, and easy automation and miniaturization of the required instrumentation make the developed methodology a promising alternative in the development of devices for on-site analysis.     

Disposable amperometric magnetoimmunosensor for the sensitive detection of the cardiac biomarker amino-terminal pro-B-type natriuretic peptide in human serum

A novel amperometric magnetoimmunosensor using an indirect competitive format is developed for the sensitive detection of the amino-terminal pro-B-type natriuretic peptide (NT-proBNP). The immunosensor design involves the covalent immobilization of the antigen onto carboxylic-modified magnetic beads (HOOC-MBs) activated with N-(3-dimethylaminopropyl)-N′-ethylcarbodiimide (EDC) and N-hydroxysulfosuccinimide (sulfo-NHS), and further incubation in a mixture solution containing variable concentrations of the antigen and a fixed concentration of an HRP-labeled detection antibody. Accordingly, the target NT-proBNP in the sample and that immobilized on the MBs compete for binding to a fixed amount of the specific HRP-labeled secondary antibody. The immunoconjugate-bearing MBs are captured by a magnet placed under the surface of a disposable gold screen-printed electrode (Au/SPE). The amperometric responses measured at –0.10 V (vs. a Ag pseudo-reference electrode), upon addition of 3,3′,5,5′-tetramethylbenzidine (TMB) as electron transfer mediator and H₂O₂ as the enzyme substrate, are used to monitor the affinity reaction. The developed magnetoimmunosensor provides attractive analytical characteristics in 10-times diluted human serum samples, exhibiting a linear range of clinical usefulness (0.12–42.9 ng mL⁻¹) and a detection limit of 0.02 ng mL⁻¹, which can be used in clinical diagnosis of chronic heart failure in the elderly and for classifying patients at risk of death after heart transplantation. The magnetoimmunosensor was successfully applied to the analysis of spiked human serum samples.     

Sensitive and selective magnetoimmunosensing platform for determination of the food allergen Ara h 1

A highly sensitive disposable amperometric immunosensor based on the use of magnetic beads (MBs) is described for determination of Ara h 1, the major peanut allergen, in only 2 h. The approach uses a sandwich configuration involving selective capture and biotinylated detector antibodies and carboxylic acid-modified MBs (HOOC-MBs). The MBs bearing the immunoconjugates are captured by a magnet placed under the surface of a disposable screen-printed carbon electrode (SPCE) and the affinity reactions are monitored amperometrically at −0.20 V (vs a Ag pseudo-reference electrode) in the presence of hydroquinone (HQ) as electron transfer mediator and upon addition of H₂O₂ as the enzyme substrate. The developed immunosensor exhibits a wide range of linearity between 20.8 and 1000.0 ng mL⁻¹ Ara h 1, a detection limit of 6.3 ng mL⁻¹, a great selectivity, a good reproducibility with a RSD of 6.3% for six different immunosensors and a useful lifetime of 25 days. The usefulness of the immunosensor was demonstrated by determining Ara h 1 in different matrices (food extracts and saliva). The results correlated properly with those provided by a commercial ELISA method offering a reliable and promising analytical screening tool in the development of user-friendly devices for on-site determination of Ara h 1.     

Multiplexed Immunosensing Platform Coupled to Hybridization Chain Reaction for Electrochemical Determination of MicroRNAs in Clinical Samples

There is an urgent need for development of rapid and inexpensive techniques for detection of microRNAs (miRNAs), which are potential biomarkers of various types of cancer. In this paper, we describe a multiplexed electrochemical platform for determination of three cancer‐relevant miRNAs: miR‐21, let‐7a and miR‐31. The strategy combines the use of magnetic beads (MBs) modified with a commercial antibody for the efficient capture of the heteroduplexes formed by hybridization of the target miRNA with DNA probe. Free non‐hybridized region of the DNA probe was thereafter hybridized with two biotin‐labeled auxiliary DNA probes in a process of hybridization chain reaction (HCR), resulting in a long hybrid bearing a large number of biotin molecules. Labeling of these multiple biotin units with streptavidin‐peroxidase conjugates allowed an amplification of the amperometric signal measured after capturing the modified MBs at a screen‐printed carbon electrode array of eight electrodes. The combined strategy demonstrated in a similar assay time significantly higher sensitivity than those previously described using modified MBs with the same capture antibody (without amplification by HCR) or a HCR strategy implemented on the surface of MBs, respectively. The methodology exhibits a good selectivity for discriminating single mismatches and was applied to the determination of the three target miRNAs in total RNA (RNA_t) extracted from various cancer cell lines and from cervical precancerous lesions.     

Amperometric Magnetoimmunosensors for Direct Determination of D‐Dimer in Human Serum

Two different D‐dimer disposable amperometric immunosensing designs based on indirect competitive or sandwich formats and the use of carboxylic acid‐modified magnetic beads (COOH‐MBs) and screen‐printed carbon electrodes (SPCEs) have been developed and compared. In both approaches, the resulting modified MBs were magnetically captured on the surface of a SPCE which was used as the transducer for the electrochemical detection at ?0.20 V upon addition of H₂O₂, and hydroquinone (HQ). Both configurations exhibited linear ranges of clinical usefulness and detection limits quite below the clinical threshold (0.5 µg mL^?1 D‐dimer). The sandwich configuration has been successfully tested with serum samples.     

Amperometric magnetoimmunoassay for the direct detection of tumor necrosis factor alpha biomarker in human serum

An amperometric immunoassay for the determination of tumor necrosis factor alpha (TNFα) protein biomarker in human serum based on the use of magnetic microbeads (MBs) and disposable screen-printed carbon electrodes (SPCEs) has been developed. The specifically modified microbeads were magnetically captured on the working electrode surface and the amperometric responses were measured at −0.20 V (vs. Ag pseudo-reference electrode), upon addition of hydroquinone (HQ) as electron transfer mediator and H₂O₂ as the enzyme substrate. After a thorough optimization of the assay, extremely low limits of detection were achieved: 2.0 pg mL⁻¹ (36 fM) and 5.8 pg mL⁻¹ (105 fM) for standard solutions and spiked human serum, respectively. The simplicity, robustness and this clinically interesting LOD proved the developed TNFα immunoassay as a good contender for real clinical application.     

Direct Determination of miR‐21 in Total RNA Extracted from Breast Cancer Samples Using Magnetosensing Platforms and the p19 Viral Protein as Detector Bioreceptor

A novel magnetobiosensing approach for the rapid, sensitive and selective miR‐21 detection is reported involving the use of a specific RNA probe (antimiR‐21), streptavidin‐magnetic beads (Strep‐MBs), the siRNA Binding Protein p19 as detector bioreceptor, and amperometric detection with the H₂O₂/hydroquinone (HQ) system at disposable screen‐printed carbon electrodes. The magnetosensor exhibited a dynamic range from 1.4 to 10 nM and a detection limit of 4.2 fmol of synthetic target miR‐21 without any amplification step in 75 min. The usefulness of the approach was evaluated by analyzing total RNA (RNA_t) extracted from metastatic breast cancer cell lines, human tissues and breast cytologies.     

Integration of a highly ordered gold nanowires array with glucose oxidase for ultra-sensitive glucose detection

A highly sensitive amperometric nanobiosensor has been developed by integration of glucose oxidase (GO_x) with a gold nanowires array (AuNWA) by cross-linking with a mixture of glutaraldehyde (GLA) and bovine serum albumin (BSA). An initial investigation of the morphology of the synthesized AuNWA by field emission scanning electron microscopy (FESEM) and field emission transmission electron microscopy (FETEM) revealed that the nanowires array was highly ordered with rough surface, and the electrochemical features of the AuNWA with/without modification were also investigated. The integrated AuNWA–BSA–GLA–GO_x nanobiosensor with Nafion membrane gave a very high sensitivity of 298.2 μA cm⁻² mM⁻¹ for amperometric detection of glucose, while also achieving a low detection limit of 0.1 μM, and a wide linear range of 5–6000 μM. Furthermore, the nanobiosensor exhibited excellent anti-interference ability towards uric acid (UA) and ascorbic acid (AA) with the aid of Nafion membrane, and the results obtained for the analysis of human blood serum indicated that the device is capable of glucose detection in real samples.     

Multiplexed Determination of Fertility-related Hormones in Saliva Using Amperometric Immunosensing

This paper reports a dual immunosensor for the simultaneous determination of two important fertility-related hormones: 17β-estradiol, E2, and follicle-stimulating hormone, FSH. The implemented method involves direct competitive (E2) or sandwich-type (FSH) immunoassays carried out on magnetic microparticles (MBs) and amperometric detection at screen-printed dual carbon electrodes (SPdCEs) involving the hydroquinone (HQ)/H₂O₂ system. The developed immune platform demonstrates LOD values of 6.88 pg mL⁻¹ and 0.11 mIU mL⁻¹ for E2 and FSH standards, respectively and usefulness for the determination in saliva samples collected from different volunteers, giving results in agreement with the conventional ELISA methodologies.     

Bioelectrochemical immunoassay of polychlorinated biphenyl

A simple, rapid, and highly sensitive bioelectrochemical immunoassay method based on magnetic beads (MBs) and disposable screen-printed electrodes (SPE) has been developed to detect polychlorinated biphenyls (PCBs). The principle of this bioassay is based on a direct competitive enzyme-linked immunosorbent assay using PCB-antibody-coated MBs and horseradish peroxidase (HRP)-labeled PCB (HRP-PCB). A magnetic process platform was used to mix and shake the samples during the immunoreactions and to separate free and unbound reagents after the liquid-phase competitive immunoreactions among PCB-antibody-coated MBs, PCB analyte, and HRP-PCB. After a complete immunoassay, the HRP tracers attached to MBs were transferred to a substrate solution containing o-aminophenol and hydrogen peroxide for electrochemical detection. The different parameters, including the amount of HRP-PCB conjugates, immunoreaction time, and the concentration of substrate that governs the analytical performance of the immunoassay have been studied in detail and optimized. The detection limit of 10 pg mL⁻¹ was obtained under optimum experimental conditions. The performance of this bioelectrochemical immunoassay was successfully evaluated with untreated river water spiked with PCBs, and the results were validated by commercial PCB enzyme-linked immunosorbent assay kit, indicating that this convenient and sensitive technique offers great promise for decentralized environmental application and trace PCBs monitoring.     

Aflatoxin B1 and M1 in milk

The aflatoxin M₁ (AFLAM₁) is a mycotoxin that results from the hydroxylation of the aflatoxin B₁ (AFLAB₁). It contaminates the milk of animals fed with a diet containing its precursor. In this work, we determined the occurrence of AFLAB₁ and AFLAM₁ in milk, as well as the chromatographic conditions to quantify these mycotoxins. The extraction and quantification of AFLAB₁ and AFLAM₁ in naturally contaminated and artificially spiked milk samples which are produced and marketed in the state of RS were performed using the AOAC official method and UHPLC with fluorescence detection. We obtained a separation factor of 2.3 for AFLAB₁ and AFLAM₁ using a mobile phase consisting of 1% acetic acid:acetonitrile:methanol (55:10:35). The analytical curves had a wide linearity range and the limit of quantification (LOQ_m) concentrations of AFLAB₁ and AFLAM₁ were equal to 0.5 and 0.25 μg L⁻¹, respectively. Samples of pasteurized and ultra-high-temperature processed (UHT) milk showed natural contamination, and the levels for both aflatoxins ranged from 0.7 to 1.5 μg L⁻¹. Raw and concentrated milk samples only contained AFLAM₁, with a maximum average concentration of 1.7 μg L⁻¹. These concentrations, higher than permitted by legislation, confirm the existence of a health risk, as well as highlight the relevance of searching for alternatives to reduce this contamination.     

Selective preconcentration and determination of iodine species in milk samples using polymer inclusion sorbent

A method to determine low levels of iodine species namely I⁻ and IO₃⁻ in aqueous samples was developed and applied to milk and milk powder samples. It is based on selective preconcentration of I⁻ in polymer inclusion sorbent (PIS) and neutron activation analysis (NAA) of I⁻ sorbed in PIS. The PIS was found to be highly selective for I⁻ in presence of IO₃⁻ and other anions commonly present in the milk samples. In order to preconcentrate total I⁻ + IO₃⁻ content in the PIS, IO₃⁻ was reduced to I⁻ using a mixture of acetic acid and ascorbic acid. It was found that total iodine content in milk could be determined with epithermal neutron activation analysis (ENAA). A scheme was developed to determine I⁻, IO₃⁻ and total iodine. The developed method was applied to milk reference materials (NIST SRM-1549 and IAEA-RM-153 milk powder) and a commercially available milk powder. The scheme for estimation of iodine in different forms was validated by using reference material NIST SRM-1549.     

Biosensor analysis of penicillin G in milk based on the inhibition of carboxypeptidase activity

The β-lactam antibiotics, including penicillins, are the most important antimicrobial substances used for mastitis treatment. Consequently, this is also the most frequently occurring type of antibiotic residues in milk. Today, in addition to the traditional microbial inhibitor tests, rapid and sensitive receptor and immunoassays are used in residue control. Due to the limitations in throughput capacity of these tests, recent applications of automated biosensor technology in food analysis are of great interest.A surface plasmon resonance (SPR)-based biosensor (Biacore) was used to design an inhibition assay to detect β-lactam antibiotics in milk. A microbial receptor protein with carboxypeptidase activity was used as detection molecule. One advantage of using this receptor protein over antibodies that are more commonly used is that only the active, intact β-lactam structure is recognized, whereas most antibodies detect both active and inactive forms. In the presence of β-lactam antibiotics the formation of a stable complex between receptor protein and antibiotic inhibits the enzymatic activity of the protein. The decrease in enzymatic activity was measured using an antibody against the degraded substrate and penicillin G in milk samples was quantitatively determined. The limit of detection of the assay for penicillin G was determined to 2.6 μg kg⁻¹ for antibiotic-free producer milk, which is below the European maximum residue limit (MRL) of 4 μg kg⁻¹. The coefficient of variation at 4 μg kg⁻¹ penicillin G, ranged between 7.3 and 16% on three different days.     

Electrochemical immunoassay using magnetic beads for the determination of zearalenone in baby food: An anticipated analytical tool for food safety

In this work, electrochemical immunoassay involving magnetic beads to determine zearalenone in selected food samples has been developed. The immunoassay scheme has been based on a direct competitive immunoassay method in which antibody-coated magnetic beads were employed as the immobilisation support and horseradish peroxidase (HRP) was used as enzymatic label. Amperometric detection has been achieved through the addition of hydrogen peroxide substrate and hydroquinone as mediator.Analytical performance of the electrochemical immunoassay has been evaluated by analysis of maize certified reference material (CRM) and selected baby food samples. A detection limit (LOD) of 0.011 μg L⁻¹ and EC₅₀ 0.079 μg L⁻¹ were obtained allowing the assessment of the detection of zearalenone mycotoxin. In addition, an excellent accuracy with a high recovery yield ranging between 95 and 108% has been obtained. The analytical features have shown the proposed electrochemical immunoassay to be a very powerful and timely screening tool for the food safety scene.     

Immunochemical determination of oxytetracycline in fish: Comparison between enzymatic and time-resolved fluorometric assays

An indirect competitive enzyme-linked immunosorbent assay (ELISA) with photometric detection of horseradish peroxidase (HRP) activity, was developed in plate to detect oxytetracycline (OTC) in Gilthead sea bream (Sparus aurata) samples. The results were compared to those obtained by time-resolved fluoroimmunoassay (TR-FIA) using a secondary antibody with coproporphyrin of platinum (II) (PtCP) as marker. The limits of detection obtained in fish extract were 16 and 0.08 μg kg⁻¹ for photometric and fluorometric detections, respectively; therefore, they were suitable for fish quality control according to the maximum residue level established by the European Union.An extraction procedure using methanol:water 70:30 (v/v) + 1 mL EDTA 0.1 M, and different clean-up procedures based on solid-phase extraction (C₁₈, polymeric reversed phase, SCX, Si) was assayed. The matrix effects were overcome by means of an average tetracycline-free fish extract calibration curve used for quantification.The OTC optimized ELISA can also be applied to determine tetracycline and chlortetracycline residues with good results. Thus, the developed immunoassay could be considered as a generic assay for the most used tetracyclines in aquaculture antibiotic treatments.In order to confirm the utility of the developed immunoassay as a semi-quantitative methodology, fish samples obtained from different supermarkets were analyzed. Results correlate well with those obtained with a reference HPLC method.     

Rapid discrimination of single-nucleotide mismatches using a microfluidic device with monolayered beads

A microfluidic device incorporating monolayered beads is developed for the discrimination of single-nucleotide mismatches, based on the differential dissociation kinetics between perfect match (PM) and mismatched (MM) duplexes. The monolayered beads are used as solid support for the immobilization of oligonucleotide probes containing a single-base variation. Target oligonucleotides hybridize to the probes, forming either PM duplexes or MM duplexes containing a single mismatch. Optimization studies show that PM and MM duplexes are easily discriminated based on their dissociation but not hybridization kinetics under an optimized buffer composition of 100 mM NaCl and 50% formamide. Detection of single-nucleotide polymorphism (SNP) using the device is demonstrated within 8 min using four probes containing all the possible single-base variants. The device can easily be modified to integrate multiplexed detection, making high-throughput SNP detection possible.     

Three-layer structure graphene/mesoporous silica composites incorporated with C8-modified interior pore-walls for residue analysis of glucocorticoids in milk by liquid chromatography–tandem mass spectrometry

Three-layer structure graphene/mesoporous silica composites incorporated with C8-modified interior pore-walls (graphene@mSiO₂-C8) were prepared and applied for efficient extraction of glucocorticoid residuals in milk followed by liquid chromatography-tandem mass spectrometry (LC–MS/MS) analysis. The graphene@mSiO₂-C8 nanocomposites were synthesized by coating C8-modified mesoporous silica onto hydrophilic graphene nanosheets through a simple surfactant-mediated co-condensation sol–gel process. The obtained nanosheets possess unique properties of large surface area (632 m²/g), extended plate-like morphology in the exterior surface, highly open pore structure with uniform pore size (2.8 nm), numerous C8-modified interior pore-walls, as well as good water dispersibility. The performance of the prepared graphene@mSiO₂-C8 materials for extracting small hydrophobic molecules directly from complex protein-rich samples was evaluated by analysis of glucocorticoids in milk. Extraction conditions such as sorbents amount, type and volume of eluting solvent, time of adsorption and desorption were investigated and optimized to achieve the best efficiency. Method validations including linearity, recovery, repeatability, and limit of detection (LOD) were also studied. The results indicated that this methodology provided low LOD (S/N = 3, 0.0075–0.03 ng mL⁻¹) and good linearity (0.03–60 ng mL⁻¹, R² > 0.996) for glucocorticoids. Satisfactory reusability and stability were also obtained during the extraction. Finally, the graphene@mSiO₂-C8 composites were successfully applied to the extraction and residue analysis of glucocorticoids in real milk samples. The experimental results showed that this novel approach offered an attractive choice for convenient, efficient and rapid solid-phase extraction of targeted hydrophobic compounds in biological samples.     

Flow injection determination of choline in milk hydrolysates by an immobilized enzyme reactor coupled to a selective hydrogen peroxide amperometric sensor

A choline oxidase (ChO) immobilized enzyme reactor (IMER) prepared by glutaraldehyde coupling of the enzyme on aminopropyl modified controlled pore glass beads is described. The ChO-IMER was coupled, in a flow injection configuration system, to an interference free hydrogen peroxide amperometric sensor based on a Pt surface modified by an overoxidized polypyrrole film. The resulting analytical device responds selectively to choline and displays a sensitivity of 46.9 ± 0.2 μC mM⁻¹ and a limit of detection, calculated at a signal-to-noise ratio equal to 3, of 7 μM. Sensitivity remains constant for about 20 days and then starts to slowly deteriorate and after 2 months a 70% of the initial sensitivity was still retained. The application to choline determination in milk hydrolysates is demonstrated. Short- and long-term drift observed in the analytical response can be corrected by a bracketing technique.     

Detection of bacterial contaminated milk by means of a quartz crystal microbalance based electronic nose

Headspace analysis by means of sensor arrays has been successfully applied to a wide range of qualitative applications. In this study, a six element array of coated Quartz Crystal Microbalance (QCM) sensors was used for the headspace analysis of milk volatiles. The sensors were exposed to uncontaminated samples of milk and samples contaminated with Pseudomonas fragi (Ps. fragi) or Escherichia coli (E. coli). Principal component analysis (PCA) was used to analyse the sensor array responses. No discrimination between uncontaminated milk samples and those contaminated with Ps. fragi was observed. This can be explained by Ps. fragi being a poor fermenter of milk. However, encouraging results were found for the discrimination between the milk samples and those contaminated with E. coli.This revised version was published online in November 2005 with corrections to the Cover Date.