Your search keyword '"Kevin J. Bisceglia"' showing total 11 results

1. Wastewater-Based Epidemiology: Estimation of Community Consumption of Drugs and Diets

Author

Bikram Subedi, Daniel A. Burgard, Bommanna G. Loganathan, Bikram Subedi, Dan Burgard, Nicole Centazzo, Marta Concheiro-Guisan, Kevin J. Bisceglia, Gianna Kroening, Bikram Subedi, Bikram Subedi, Benedek Gy. Plósz, Pedram Ramin, Xiqing Li, Peng Du, Wei Zhang, Viviane Yargeau, Tim Werschler, Rosie Rush

Published

2019

2. Determination of thermal degradants in e-cigarette fluid via direct sample introduction (DSI) gas chromatography-tandem mass spectrometry

Author

Ling Huang, Sahar Caravan, Kevin J. Bisceglia, and Keegan Rogers

Subjects

Analyte, Materials science, Chromatography, Gas Chromatography/Tandem Mass Spectrometry, Glass Vial, General Chemical Engineering, 010401 analytical chemistry, General Engineering, Injector, 010501 environmental sciences, Tandem mass spectrometry, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, law.invention, law, Vaporization, Thermal, Degradation (geology), 0105 earth and related environmental sciences

Abstract

Electronic cigarettes (EC) and other electronic nicotine delivery systems (ENDS) have recently become popular choices for nicotine consumption due to the lower perceived harm compared to conventional tobacco products. Currently, only nicotine levels in EC fluids are regulated by the FDA. Besides nicotine and solvents such as propylene glycol and glycerin, the heating of EC fluids may produce thermal degradants that could impact a user's health. We proposed to use direct sample introduction (DSI) GC-MS/MS as a fast and reliable instrumental method to analyze EC fluid components and their thermal degradants generated in a simulated ENDS-like environment within the DSI enclosure. DSI GC-MS/MS separates and detects the target analytes even in the presence of a complex, viscous, and often “dirty” sample matrix. DSI utilizes a programmable-temperature vaporization (PTV) injector in conjunction with a ChromatoProbe accessory, in which a solid or liquid sample in a disposable glass vial can be heated and vapors introduced into the GC column for separation. DSI was used to mimic the heating behavior of an EC atomizer and introduce the EC vapors and degradants into GC-MS/MS in almost real-time. Subsequently, through tandem mass spectrometry, signature ion fragments for thermal breakdown components (e.g. aldehydes) were detected and quantified. Relative peak ratios of those thermal breakdown products and an internal standard were employed to study the effects of temperature ramp rate, maximum heating temperature, and maximum temperature hold time on the outcomes of thermal degradation.

Published

2018

3. GC-MS Methods for Monitoring Illicit Drug Biomarkers in Wastewater: A Critical Review

Author

Kevin J. Bisceglia, Bikram Subedi, and Gianna Kroening

Subjects

Wastewater, business.industry, Medicine, Illicit drug, Pharmacology, Gas chromatography–mass spectrometry, business

Published

2019

4. Emerging investigators series: sewer surveillance for monitoring antibiotic use and prevalence of antibiotic resistance: urban sewer epidemiology

Author

Kevin J. Bisceglia and N.L. Fahrenfeld

Subjects

education.field_of_study, medicine.medical_specialty, Environmental Engineering, business.industry, medicine.drug_class, Population, Antibiotics, Gene transfer, urologic and male genital diseases, female genital diseases and pregnancy complications, Biotechnology, Antibiotic resistance, Epidemiology, Medicine, cardiovascular diseases, Sanitary sewer, Antibiotic use, Medical prescription, business, education, Intensive care medicine, Water Science and Technology

Abstract

Sewer surveillance may be a useful tool for epidemiology that would benefit from improved understanding of the fate of microbial agents and prescription antibiotics during conveyance in sewer systems. The aim of this review is to provide an overview of the factors affecting the loading and fate of antibiotics and antibiotic resistant bacteria (ARB) in sewer systems. A review of surveillance studies for antibiotics and antibiotic resistant bacteria is presented. Then, the role of potentially complicating sewer inputs (e.g., the presence of health care facilities in a sewershed),and evidence for temporal variations in antibiotics and ARB are reviewed. Recommendations for best practices for sampling are made. Finally, evidence is presented for in-sewer attenuation of antibiotics and attenuation, growth and gene transfer for ARB. There is potential for, but limited evidence of, sewers serving as a reservoir for ARB growth and horizontal gene transfer. This review highlights the need for better understanding of ARB carriage in the general population and the impact of in-sewer processes on the fate of antibiotics and ARB.

Published

2016

5. Leachability and potential ecotoxic impact of trifluralin-impregnated mulch

Author

Manpreet Kaur, Francesca A. Pavlovici, Monika Dharia, and Kevin J. Bisceglia

Subjects

Surface Properties, Health, Toxicology and Mutagenesis, Rain, 010501 environmental sciences, Ecotoxicology, 01 natural sciences, chemistry.chemical_compound, Environmental Chemistry, Soil Pollutants, Leachate, 0105 earth and related environmental sciences, Aqueous solution, Photolysis, Chemistry, Trifluralin, Agriculture, 04 agricultural and veterinary sciences, General Medicine, Pollution, Agronomy, Environmental chemistry, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Degradation (geology), Ecotoxicity, Mulch

Abstract

The leachability, potential ecotoxicity, and photolysis of trifluralin-impregnated mulch, a popular retail consumer gardening product, were investigated under environmentally realistic conditions. Leachability of trifluralin from impregnated mulch was low (

Published

2017

6. Stability of cocaine and its metabolites in municipal wastewater – the case for using metabolite consolidation to monitor cocaine utilization

Author

Katrice A. Lippa and Kevin J. Bisceglia

Subjects

Health, Toxicology and Mutagenesis, Metabolite, Sewage, Wastewater, Excretion, Hydrolysis, chemistry.chemical_compound, Cocaine, Environmental Chemistry, Ecotoxicology, Chromatography, Chemistry, business.industry, Environmental engineering, General Medicine, Hydrogen-Ion Concentration, Pollution, Drug Utilization, Benzoylecgonine, Ecgonine, business, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Transformations of cocaine and eleven of its metabolites were investigated in untreated municipal sewage at pH ≈ 7 and 9, 23, and 31 °C. Results indicated that hydrolysis-possibly bacterially mediated-was the principal transformation pathway. Residues possessing alkyl esters were particularly susceptible to hydrolysis, with pseudo-first-order rate constants varying from 0.54 to 1.7 day(-1) at 23 °C. Metabolites lacking esters or possessing only a benzoyl ester appeared stable. Residues lacking alkyl esters did accumulate through hydrolysis of precursors, however. As noted previously, this may positively bias cocaine utilization estimates based on benzoylecgonine alone. Reported variability in metabolic excretion was used in conjunction with transformation data to evaluate different approaches for estimating cocaine loading. Results indicate that estimates derived from measurands that capture all major cocaine metabolites, such as COCtot (the sum of all measurable metabolites) and EChyd (the sum of all metabolites that can be hydrolyzed to ecgonine), may reduce uncertainty arising from variability in metabolite transformation and excretion, possibly to ≈ 10 % RSD. This is more than a two-fold reduction relative to estimates derived from benzoylecgonine (26 % RSD), and roughly equivalent to reported uncertainties from sources that are not metabolite-specific (e.g., sampling frequency, flow variability). They and other composite measurands merit consideration from the sewage epidemiology community, beginning with efforts to evaluate the stability of the total cocaine load under realistic sewer conditions.

Published

2013

7. Determination of pharmaceuticals and antiseptics in water by solid-phase extraction and gas chromatography/mass spectrometry: analysis via pentafluorobenzylation and stable isotope dilution

Author

Kevin J. Bisceglia, A. Lynn Roberts, Mehmet Coelhan, Jim T. Yu, and Edward J. Bouwer

Subjects

Chromatography, Sewage, Resolution (mass spectrometry), Chemistry, Solid Phase Extraction, Extraction (chemistry), Indicator Dilution Techniques, Secobarbital, Biochemistry, Gas Chromatography-Mass Spectrometry, Analytical Chemistry, Triclosan, Fluorobenzenes, Solvent, chemistry.chemical_compound, Pharmaceutical Preparations, Anti-Infective Agents, Local, medicine, Solid phase extraction, Gas chromatography–mass spectrometry, Derivatization, Water Pollutants, Chemical, medicine.drug

Abstract

A sensitive yet robust analytical method is presented for the simultaneous determination of 12 human pharmaceuticals (valproic acid, phenytoin, ibuprofen, gabapentin, acetaminophen, gemfibrozil, naproxen, ketoprofen, secobarbital, phenobarbital, 5-fluorouracil, and diclofenac) and 6 antiseptics (biosol, biphenylol, p-chloro-m-cresol, p-chloro-m-xylenol, chlorophene, and triclosan). The method employs solid-phase extraction (SPE) followed by a novel pentafluorobenzylation using a mixture of acetontrile/water (1/1, v/v). The method is simple to perform (derivatization can be completed in a single test tube) and eliminates the need for any solvent/SPE cartridge drying or blow-down. It affords excellent resolution, high sensitivity and reproducibility, and freedom from interference even for matrices as complex as untreated sewage. The method was applied to the analysis of sewage samples using 15 isotopically labeled surrogates, which resulted in the detection of 10 of the 12 pharmaceuticals and all of the antiseptics sought. Ten of 15 surrogates were synthesized from pure analytes by a simple H-D exchange reaction employing D(2)O and D(2)SO(4). Measured recoveries were sensitive to matrix effects and varied substantially among analytes, indicative of the limitations associated with using a single surrogate standard.

Published

2012

8. A hydrolysis procedure for the analysis of total cocaine residues in wastewater

Author

Katrice A. Lippa, A. Lynn Roberts, and Kevin J. Bisceglia

Subjects

Chromatography, Chemistry, Hydrolysis, Hydrophilic interaction chromatography, Metabolite, Solid Phase Extraction, Extraction (chemistry), Tropane, Waste Disposal, Fluid, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, Cocaine, Wastewater, Tandem Mass Spectrometry, Benzoylecgonine, Humans, Ecgonine, Water Pollutants, Chemical, Chromatography, Liquid

Abstract

We report a sample pretreatment approach for the analysis of total cocaine residues in wastewater that eliminates the need for two key assumptions often made in estimating cocaine utilization from measurement of its benzoylecgonine metabolite: that benzoylecgonine is neither degraded nor generated during transport in a sewer system, and that it is excreted as a constant fraction of cocaine ingested. By adding NaOH and incubating samples at 55 °C, cocaine and its principal metabolites are efficiently hydrolyzed into ecgonine, anhydroecgonine, and norecgonine. Ecgonine, estimated to represent between 37% and 90% (on a molar basis) of cocaine residues, can be directly determined (without preconcentration via solid-phase extraction (SPE)) by reversed-phase (RP) or hydrophilic interaction liquid chromatography-tandem mass spectrometry (LC/MS/MS). If samples are subjected to SPE, anhydroecgonine can also be determined; this metabolite (and its precursors) represents ≈7% of urinary cocaine residues (based on spot collections from living individuals). Although a reference standard for norecgonine is not commercially available, such nortropanes are also a minor fraction (up to 2%) of urinary cocaine residues. The stability of two human markers (cotinine and creatinine) to the hydrolysis procedure was also investigated. Results obtained by applying the hydrolysis approach for the analysis of total cocaine in an untreated municipal wastewater sample (obtained from Baltimore, MD) were generally in excellent agreement with those obtained from split samples analyzed using a more comprehensive solid-phase extraction RPLC/MS/MS method as described in our previous work. In particular, total tropane-based cocaine residues were found to be hydrolyzed to ecgonine with 98-99% efficiency.

Published

2011

9. Trace determination of pharmaceuticals and other wastewater-derived micropollutants by solid phase extraction and gas chromatography/mass spectrometry

Author

Kevin J. Bisceglia, Edward J. Bouwer, Mehmet Coelhan, Jim T. Yu, and A. Lynn Roberts

Subjects

Chromatography, Sewage, Solid Phase Extraction, Organic Chemistry, General Medicine, Hydrogen-Ion Concentration, BSTFA, Sensitivity and Specificity, Waste Disposal, Fluid, Biochemistry, Gas Chromatography-Mass Spectrometry, Analytical Chemistry, chemistry.chemical_compound, Pharmaceutical Preparations, chemistry, Wastewater, Environmental chemistry, Solvents, Sewage treatment, Gas chromatography, Solid phase extraction, Gas chromatography–mass spectrometry, Derivatization, Water Pollutants, Chemical, Waste disposal

Abstract

The presence of pharmaceuticals and other wastewater-derived micropollutants in surface and groundwaters is receiving intense public and scientific attention. Yet simple GC/MS methods that would enable measurement of a wide range of such compounds are scarce. This paper describes a GC/MS method for the simultaneous determination of 13 pharmaceuticals (acetaminophen, albuterol, allopurinol, amitriptyline, brompheniramine, carbamazepine, carisoprodol, ciclopirox, diazepam, fenofibrate, metoprolol, primidone, and terbinafine) and 5 wastewater-derived contaminants (caffeine, diethyltoluamide, n-butylbenzene sulfonamide, n-nonylphenol, and n-octylphenol) by solid phase extraction (SPE) and derivatization with BSTFA. The method was applied to the analysis of raw and treated sewage samples obtained from a wastewater treatment plant located in the mid-Atlantic United States. All analytes were detected in untreated sewage, and 14 of the 18 analytes were detected in treated sewage.

Published

2010

10. Iron(II)-Catalyzed Oxidation of Arsenic(III) in a Sediment Column

Author

Kevin J. Bisceglia, John D. Mahony, Kevin J. Farley, Kevin J. Rader, Richard F. Carbonaro, and Dominic M. Di Toro

Subjects

chemistry.chemical_classification, Geologic Sediments, Reaction mechanism, Iron, Kinetics, Sediment, chemistry.chemical_element, General Chemistry, Catalysis, Arsenic, Divalent, Arsenic contamination of groundwater, chemistry.chemical_compound, chemistry, Environmental chemistry, Environmental Chemistry, Adsorption, Oxidation-Reduction, Arsenite

Abstract

Arsenic contamination in aquatic systems is a worldwide concern. Understanding the redox cycling of arsenic in sediments is critical in evaluating the fate of arsenic in aquatic environments and in developing sediment quality guidelines. The direct oxidation of inorganic trivalent arsenic, As(III), by dissolved molecular oxygen has been studied and found to be quite slow. A chemical pathway for As(III) oxidation has been proposed recently in which a radical species, Fe(IV), produced during the oxidation of divalent iron, Fe(II), facilitates the oxidation of As(III). Rapid oxidation of As(III) was observed (on a time scale of hours) in batch systems at pH 7 and 7.5, but the extent of As(III) oxidation was limited. The Fe(II)-catalyzed oxidation of As(III) is examined in a sediment column using both computational and experimental studies. A reactive-transport model is constructed that incorporates the complex kinetics of radical species generation and Fe(II) and As(III) oxidation that have been developed previously. The model is applied to experimental column data. Results indicate that the proposed chemical pathway can explain As(III) oxidation in sediments and that transport in sediments plays a vital role in increasing the extent of As(III) oxidation and efficiency of the Fe(II) catalysis.

Published

2005

11. Quantification of drugs of abuse in municipal wastewater via SPE and direct injection liquid chromatography mass spectrometry

Author

A. Lynn Roberts, Katrice A. Lippa, Michele M. Schantz, and Kevin J. Bisceglia

Subjects

Chromatography, Reverse-Phase, Spectrometry, Mass, Electrospray Ionization, Chromatography, Sewage, Illicit Drugs, Substance-Related Disorders, Metabolite, Solid Phase Extraction, Reversed-phase chromatography, Mass spectrometry, Biochemistry, Analytical Chemistry, chemistry.chemical_compound, chemistry, Wastewater, Liquid chromatography–mass spectrometry, Tandem Mass Spectrometry, Humans, Solid phase extraction, Ecgonine, Quantitative analysis (chemistry), Hydrophobic and Hydrophilic Interactions, Water Pollutants, Chemical

Abstract

We present an isotopic-dilution direct injection reversed-phase liquid chromatography-tandem mass spectrometry method for the simultaneous determination of 23 drugs of abuse, drug metabolites, and human-use markers in municipal wastewater. The method places particular emphasis on cocaine; it includes 11 of its metabolites to facilitate assessment of routes of administration and to enhance the accuracy of estimates of cocaine consumption. Four opioids (6-acetylmorphine, morphine, hydrocodone, and oxycodone) are also included, along with five phenylamine drugs (amphetamine, methamphetamine, 3,4-methylenedioxy-methamphetamine, methylbenzodioxolyl-butanamine, and 3,4-methylenedioxy-N-ethylamphetamine) and two human-use markers (cotinine and creatinine). The method is sufficiently sensitive to directly quantify (without preconcentration) 18 analytes in wastewater at concentrations less than 50 ng/L. We also present a modified version of this method that incorporates solid-phase extraction to further enhance sensitivity. The method includes a confirmatory LC separation (selected by evaluating 13 unique chromatographic phases) that has been evaluated using National Institute of Standards and Technology Standard Reference Material 1511 Multi-Drugs of Abuse in Freeze-Dried Urine. Seven analytes (ecgonine methyl ester, ecgonine ethyl ester, anhydroecgonine methyl ester, m-hydroxybenzoylecgonine, p-hydroxybenzoyl-ecgonine, ecgonine, and anhydroecgonine) were detected for the first time in a wastewater sample.

Published

2010