Fernando M. Rubio

Determination of pentachlorophenol in water and soil by a magnetic particle-based enzyme immunoassay.

A competitive enzyme immunoassay using specific pentachlorophenol (PCP) antiserum covalently coupled to a magnetic particle solid phase has been developed for the detection of PCP in water and soil. The immunoassay allows the quantification of PCP from 100 ppt(parts per trillion, ng/L) in water and 100 ppb (parts per billion, mg/L) in soil. Spike recovery from water samples with no sample pretreatment and from various soil types following a simple extraction technique averaged 105% and 94%, respectively. The method compares favorably with GC/MS and HPLC measurements in water (r=0.980) and soil (r=0.996) samples.

Analytical evaluation of a high-throughput enzyme-linked immunosorbent assay for acrylamide determination in fried foods

The analytical performance and evaluation of a kit-based ELISA for the determination of acrylamide in fried potato and corn chip samples are described. The sample homogenate is subjected to clean-up using SPE, followed by analyte derivatization and ELISA detection. Accuracy, precision and linearity of the ELISA procedure have been validated using spiked samples. Analytical recovery ranged from 91.8% to 96.0% with coefficients of variation below 15%. Good linearity over a wide range of dilution and minimal assay drift was observed within a microtiter plate. IC50 value of the calibration curve was 110 ng/mL, with the limit of detection about 5 ng/mL and dynamic range from 10 to 1000 ng/mL. The high specificity of the ELISA was demonstrated by cross-reactivity study using 11 potential cross-reactants. A good correlation between the results obtained from the ELISA and GC-MS within the concentration range 120-1500 μg/kg was found in the chip samples (r=0.992, n=120). The data demonstrate that the evaluated and validated ELISA has a potential utility in a quick, simple and reliable acrylamide screening analysis for the medium- and large-sized food companies, as well as for residue laboratories and the food industry dealing with improving the chemical safety of foods available to the consumer.

Comparison of two ELISA-based methods for the detection of microcystins in blood serum

Microcystins (MCs) are cyanobacterial toxins which place the public at risk via exposure to MC contaminated water, food or algal food supplements. Subsequent to the fatal intravenous exposure of dialysis patients in Caruaru, Brazil, several techniques (LC-MS, GC-MS and ELISA) were adapted to detect MCs in human serum. As patients chronically exposed to low concentrations of MCs also present with very low MC serum levels, only LC-MS methodology would appear to allow detection of these MC levels. However, LC-MS detection depends on the availability of respective MC congener standards and the levels of non-covalently bound MC in the sample. In contrast, immunological techniques, e.g. MC-ELISA potentially could detect even covalently bound MC, provided the MC-antibody was raised against an epitope found in nearly all of the MC congeners. As the Adda-side-chain moiety is present in nearly all of the MC congeners known to date, the anti-Adda antibodies, when applied in Adda-ELISAs, could represent a relatively simple and robust technique for the qualitative and quantitative determination of MC in human serum. The aim of the current study was to determine whether commercially available Adda-ELISAs and their respective sample preparation methods would allow MC quantification in human serum. The Adda-ELISA (polyclonal antibody) and the Adda-ELISA (monoclonal antibody) kit for serum (Serum-ELISA) were used for determination of the concentration-dependent recovery of MCs in MC-spiked serum. Human serum samples were spiked with varying concentrations of MCs (MC-LR, -YR, -RR, -LA, -LW, -LF and defined MC mixtures) and extracted using two different methods. MC-spiked bovine serum and standard cell culture medium containing 10% FBS served to investigate potential matrix effects. Inter-laboratory comparison was performed allowing identification of potential sources of error. The results suggest that both ELISAs are suitable tools for the analysis of MCs in human blood serum although both also displayed some weaknesses notably the time needed for sample preparation or the overestimation of some specific MC congener concentrations. Based on the ELISA detection ranges, sample concentration and/or MC spiking may be required for detection of low levels of MCs in human blood.

The effects of water sample treatment, preparation, and storage prior to cyanotoxin analysis for cylindrospermopsin, microcystin and saxitoxin.

Cyanobacterial harmful algal blooms occur in freshwater lakes, ponds, rivers, and reservoirs, and in brackish waters throughout the world. The wide variety of cyanotoxins and their congeners can lead to frequent exposure of humans through consumption of meat, fish, seafood, blue-green algal products and water, accidental ingestion of contaminated water and cyanobacterial scum during recreational activities, and inhalation of cyanobacterial aerosols. Cyanotoxins can also occur in the drinking water supply. In order to monitor human exposure, sensitive analytical methods such as enzyme linked immunosorbent assay and liquid chromatography-mass spectrometry are often used. Regardless of the analytical method of choice, some problems regularly occur during sample collection, treatment, storage, and preparation which cause toxin loss and therefore underestimation of the true concentration. To evaluate the potential influence of sample treatment, storage and preparation materials on surface and drinking water samples, the effects of different types of materials on toxin recovery were compared. Collection and storage materials included glass and various types of plastics. It was found that microcystin congeners LA and LF adsorbed to polystyrene, polypropylene, high density polyethylene and polycarbonate storage containers, leading to low recoveries (<70%), cylindrospermopsin and saxitoxin did not adsorb to the containers tested. Therefore, this study shows that glass or polyethylene terephthalate glycol containers are the materials of choice for collection and storage of samples containing the cyanotoxins cylindrospermopsin, microcystins, and saxitoxin. This study also demonstrated that after 15 min chlorine decreased the concentration of microcystin LR to <40%, microcystin LA and saxitoxin to <15%, therefore quenching of drinking water samples immediately upon sample collection is critical for accurate analysis. In addition, the effect of various drinking water treatment chemicals on toxin recovery and the behavior of those chemicals in the enzyme linked immunosorbent assays were also studied and are summarized.

Development of a magnetic particle-based enzyme immunoassay for the determination of penoxsulam in water.

A competitive enzyme-linked immunoassay (ELISA) for the quantitation of Penoxsulam [2-(2,2-difluoroethoxy)-6-(trifluoromethyl-N-(5,8-dimethoxy[1,2,4]triazolo[1,5-c]pyrimidin-2-yl))benzenesulfonamide] in ground and surface waters was developed. This immunoassay utilizes magnetic particles as the solid phase to which polyclonal rabbit anti-Penoxsulam antibodies are attached. The ELISA has an estimated detection limit of 0.17 ppb (microg/mL) of Penoxsulam in water. Specificity studies indicate that the antibody can distinguish Penoxsulam from its major metabolites and structurally similar pesticides. Interference studies indicate that the ELISA has a wide tolerance of sample pH and salinity and for compounds commonly found in surface and ground waters. The ELISA was shown to compare favorably to LC-MS/MS on ground and surface water samples (r(2) = 0.957). The various studies performed demonstrate the usefulness of the ELISA technique as a rapid and high-throughput analytical method for the cost-effective monitoring of water samples.

Detection of procymidone in wine and grapes by a magnetic particle‐based enzyme immunoassay

A competitive enzyme immunoassay has been developed to detect procymidone in wine at the parts per billion level (ppb) without sample dilution or extraction. This immunoassay utilizes magnetic particles as the solid phase which allows for the precise addition of antibody and rapid reaction kinetics. The sensitivity of the assay based on 90% B/Bo is 0.8 ppb in wine. The recovery of 30 wine samples spiked with four levels of procymidone averaged 104%. The specificity of the polyclonal antibody used allows for the quantitation of procymidone in the presence of other commonly applied fungicides including vinclozolin, iprodione, captan and carbendazim. Correlation of 27 wine samples by the immunoassay method and a GC/ ECD procedure yielded a regression (r) of 0.972. Recovery studies indicate that this immunoassay can also be used to detect procymidone on grapes. The average recovery of procymidone from grapes was 113%.

Response to Letter to the Editor regarding “Determination of glyphosate in groundwater samples using an ultrasensitive immunoassay and confirmation by on-line solid phase extraction followed by liquid chromatography coupled to tandem mass spectrometry”

2. The aquifers sampled were, with few exceptions, mainly unconfined porous aquifers of sandy and gravel composition. It is clear that the presence of pesticides and nitrates in groundwater is associated with well known recharge processes and is affected by surface waters. This does not, however, prevent these samples qualifying as “groundwater”, because they came from the saturated zone of these aquifers.