Pankaj Kulshrestha scite author profile

The interactions of oxytetracycline with model clay adsorbents were investigated as a function of suspension pH. The clay adsorbents used were native montmorillonite (SWy-2), Na-montmorillonite (Na-SWy-2), and hexadecyl trimethylammonium-montmorillonite (HDTMA-montmorillonite). The adsorption of oxytetracycline to the clay could be described by Freundlich-type adsorption isotherms. It was observed that the adsorption of oxytetracycline in the native and sodium forms of montmorillonite decreases with increasing pH in the order pH 1.5 > 5.0 > 8.7 > 11.0. This trend is consistent with cationic exchange interactions that are dominant at lower pH values when oxytetracycline has a net positive charge. On the other hand, hydrophobic interactions when oxytetracycline is zwitterionic (at pH 5.0) are predominant over other mechanisms, as evident from the FT-IR spectrum of the HDTMA-montmorillonite and humic acid-montmorillonite adsorbed with oxytetracycline. The presence of a large amount of dissolved organic matter (DOM) was also found to decrease the sorption of oxytetracycline to clay, suggesting that DOM may increase its mobility in the natural environment. Several mechanisms of interaction of oxytetracycline in clay are proposed based on the adsorption isotherms and the results from X-ray diffraction (XRD) and Fourier transform-infrared (FT-IR) analyses.

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Application of ELISA in determining the fate of tetracyclines in land-applied livestock wastes

Aga

Goldfish

Kulshrestha

2003

Analyst

149

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The potential use of a class-specific enzyme-linked immunosorbent assay (ELISA) in studying the occurrence and fate of tetracyclines in the environment was evaluated. Several manure samples collected from hog lagoons and cattle feedlots were screened for the presence of tetracycline residues using ELISA. The levels varied from less than the detection limit (0.5 parts per billion) to 200 parts per million. The degradation of tetracyclines in soil-applied manure was followed using ELISA to measure the decline in tetracycline concentrations. Low levels of tetracyclines remained detectable in soil for up to 28 days. The ELISA procedure also proved useful in determining the leaching potential of tetracyclines in undisturbed soil columns and in the analysis of total tetracyclines in manure, soil, and water. Based on the cross-reactivity of the antibodies employed, this ELISA method can be an important screening tool for the presence of other tetracycline compounds, such as chlortetracycline and oxytetracycline. The ELISA method also detects the epimers of tetracyclines and the corresponding dehydration by-products, anhydrotetracyclines. Analysis of selected manure extracts by liquid chromatography with mass spectrometry (LC-MS) showed lower concentrations of total tetracyclines compared to the values obtained by ELISA, indicating the presence of other structurally related compounds or transformation products of tetracyclines being detected by ELISA in the samples. Because analysis of manure and soil samples by LC-MS requires extensive clean-up procedures, ELISA provides an alternative method for conducting environmental fate and transport studies of antibiotics.

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Application of an Optimized Total N-Nitrosamine (TONO) Assay to Pools: Placing N-Nitrosodimethylamine (NDMA) Determinations into Perspective

Kulshrestha

McKinstry

Fernandez

et al. 2010

Environ. Sci. Technol.

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Although N-nitrosodimethylamine (NDMA) has been the most prevalent N-nitrosamine detected in disinfected waters, it remains unclear whether NDMA is indeed the most significant N-nitrosamine or just one representative of a larger pool of N-nitrosamines. A widely used assay applied to quantify nitrite, S-nitrosothiols, and N-nitrosamines in biological samples involves their reduction to nitric oxide by acidic tri-iodide, followed by chemiluminescent detection of the evolved nitric oxide in the gas phase. We here describe an adaptation of this method for analyzing total N-nitrosamine (TONO) concentrations in disinfected pools. Optimal sensitivity for N-nitrosamines was obtained using a reduction solution containing 13.5 mL glacial acetic acid and 1 mL of an aqueous 540 g/L iodide and 114 g/L iodine solution held at 80 degrees C. The method detection limit for N-nitrosamines was 110 nM using 100 microL sample injections and NDMA as a standard. N-nitrosamines featuring a range of polarities were converted to nitric oxide with 75-103% efficiency compared to NDMA. Evaluation of potential interfering species indicated that only nitrite and S-nitrosothiols were a concern, but both interferences were effectively eliminated using group-specific sample pretreatments previously employed for biological samples. To evaluate the low TONO concentrations anticipated for pools, 1 L samples were extracted by continuous liquid-liquid extraction with ethyl acetate for 24 h, and concentrated to 1 mL. N-nitrosamine recovery during extraction ranged from 37-75%, and there was a potential for artifactual nitrosation of amines during solvent reflux in the presence of significant nitrite concentrations, but not at the low nitrite concentrations prevalent in most pools. Using the 1000-fold concentration factor and 56% average extraction efficiency, the method detection limit would be 62 pM (5 ng/L as NDMA). The TONO assay was applied to six pools and their common tap water source in conjunction with analysis for specific nitrosamines. Even accounting for the range of N-nitrosamine extraction recoveries, NDMA accounted for an average of only 13% (range 3-46%) of the total nitrosamine pool.

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Crystal engineering, solid state spectroscopy and time-resolved diffraction

Coppens

Gerlits

et al. 2002

CrystEngComm

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