Your search keyword '"Giovanni Cappelli"' showing total 11 results

1. How improvements in monitoring and safety practices lowered airborne formaldehyde concentrations at an Italian university hospital: a summary of 20 years of experience

Author

Daniela Massi, Nicola Mucci, Nicola Berti, Giovanni Cappelli, Stefano Dugheri, and Giulio Arcangeli

Subjects

daljinsko upravljanje, air monitoring, zaštita na radu, 010501 environmental sciences, Toxicology, 01 natural sciences, safe practices, formaldehid, Formaldehyde, Occupational Exposure, Humans, Operations management, Monitoring methods, 0105 earth and related environmental sciences, personal sampling, 010401 analytical chemistry, Continuous monitoring, Public Health, Environmental and Occupational Health, Sampling (statistics), Monitoring system, University hospital, osobni skupljači uzoraka, Hospitals, praćenje kakvoće zraka, 0104 chemical sciences, Workflow, Italy, remote control, Reference values, Pathology laboratory, Environmental science, Original Article, Environmental Monitoring

Abstract

The last two decades have been crucial for the assessment of airborne formaldehyde (FA) exposure in healthcare environments due to changes in limits and reference values, definition of carcinogenicity, and new monitoring methods. The aim of this study was to analyse twenty years (1999-2019) of experience in automatic, continuous airborne FA monitoring in the Pathology Laboratory and operating rooms at the Careggi University Hospital, Florence, Italy. These 20 years saw gradual improvements in FA monitoring of exposed employees considered at maximum risk, including improvements in analytical methods of detection and sampling strategies, which came with changes in procedures and workflow operations. In 2019, after the adoption of safe practices, including a closed-circuit system using pre-loaded containers and a vacuum sealing, 94 % of the total measurements (FA concentrations) were lower than 16 μg/m3, and only 6 % ranged from 21 to 75 μg/m3. In the studied work units, the ratio between area and personal readings ranged from 0.9 to 1.0, both for long and short-term sampling. Personal sampling was simplified with a new workstation, which integrated different monitoring systems into an innovative ergonomic armchair equipped with personal sampling devices. Area monitoring was also improved with a real-time, continuous photoacoustic instrument. Over these 20 years, FA exposure significantly dropped, which coincided with optimised histology workflow and implementation of safety practices. For high-throughput screening and cost savings we propose an innovative ergonomic armchair station which allows remote continuous monitoring.Posljednja dva desetljeća bila su iznimno važna za procjenu izloženosti formaldehidu (FA) u zraku u zdravstvenim ustanovama zahvaljujući promjenama u preporučenim maksimalnim i referentnim vrijednostima, definiciji njegove kancerogenosti i novim metodama mjerenja/praćenja. Cilj je ovog istraživanja bio analizirati dvadeset godina (1999. – 2000.) iskustva u automatskom, kontinuiranom mjerenju razina FA-a u laboratoriju za patologiju i operacijskim dvoranama talijanske sveučilišne bolnice Careggi u Firenzi. Tijekom tih dvadeset godina bolnica je postupno poboljšavala metode praćenja razina FA-a i osoblja izloženoga najvećem riziku, analitičke metode detekcije i strategije uzorkovanja koje su bile popraćene promjenama u odgovarajućim postupcima i organizaciji rada. Nakon usvajanja novih postupaka zaštite na radu 2019., uključujući i zatvoreni sustav rukovanja spremnicima i sustav vakuumskoga zatvaranja, razine FA-a u 94 % izmjera bile su niže od 16 μg/m

Published

2020

2. Experimental designs for solid-phase microextraction method development in bioanalysis: A review

Author

Giovanni Cappelli, Nicola Mucci, Stefano Dugheri, Patrik Appelblad, Giulio Arcangeli, Camillo Melzi, Andrea Speltini, and Giorgio Marrubini

Subjects

Commercial software, Bioanalysis, Chemistry, Design of experiments, 010401 analytical chemistry, 02 engineering and technology, Factorial experiment, 021001 nanoscience & nanotechnology, Solid-phase microextraction, 01 natural sciences, Biochemistry, Method development, Quality by Design, 0104 chemical sciences, Analytical Chemistry, Research Design, Systems engineering, Environmental Chemistry, Biological Assay, 0210 nano-technology, Software, Solid Phase Microextraction, Spectroscopy

Abstract

This review is an update of a previous review in 2009 and covers publications from 2009 to 2019. The review focuses on experimental design, referred to as the design of experiments (DoE), used in developing bioanalytical solid-phase microextraction (SPME) methods. Characteristics of different SPME approaches are illustrated and critically discussed. The literature selection evidences that two-level full factorial designs, with a limited number of factors (5), are most frequently used for preliminary factors screening. When applying the response surface methodology for the quantitative assessment of factorial effects, few quadratic models were used. The most popular were the rotatable central composite and Box-Benkhen designs. Models including more than four factors, such as fractional factorial designs (including the Plackett-Burman and Taguchi designs), were rarely used. Definitive screening and D-Optimal designs were not reported anywhere in the literature selection. When examining the diagnostic criteria used to evaluate different model's quality and validity, it was apparent the researchers relied heavily on commercial software for experimental design, analysis, and reporting of the results.

Published

2020

3. Liquid phase microextraction techniques combined with chromatography analysis: a review

Author

Daniela Ubiali, Alessandro Bonari, Giovanni Cappelli, Marcello Campagna, Manfredi Montalti, Stefano Dugheri, Giorgio Marrubini, Nicola Mucci, and Giulio Arcangeli

Subjects

Chromatography, 010401 analytical chemistry, Liquid phase, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Sample (graphics), 0104 chemical sciences, chemistry.chemical_compound, chemistry, Gas chromatography, 0210 nano-technology, Routine analysis, Derivatization

Abstract

Sample pretreatment is the first and the most important step of an analytical procedure. In routine analysis, liquid–liquid microextraction (LLE) is the most widely used sample pre-treatment technique, whose goal is to isolate the target analytes, provide enrichment, with cleanup to lower the chemical noise, and enhance the signal. The use of extensive volumes of hazardous organic solvents and production of large amounts of waste make LLE procedures unsuitable for modern, highly automated laboratories, expensive, and environmentally unfriendly. In the past two decades, liquid-phase microextraction (LPME) was introduced to overcome these drawbacks. Thanks to the need of only a few microliters of extraction solvent, LPME techniques have been widely adopted by the scientific community. The aim of this review is to report on the state-of-the-art LPME techniques used in gas and liquid chromatography. Attention was paid to the classification of the LPME operating modes, to the historical contextualization of LPME applications, and to the advantages of microextraction in methods respecting the value of green analytical chemistry. Technical aspects such as description of methodology selected in method development for routine use, specific variants of LPME developed for complex matrices, derivatization, and enrichment techniques are also discussed.

Published

2020

4. Fully Automated Determination of Trimellitic Anhydride in Saturated Polyester Resins Using Programmed Temperature Vaporization-Large Volume Injection-Gas Chromatography Previous Aqueous Derivatization with Triethyloxonium Tetrafluoroborate

Author

Nicola Mucci, Giulio Arcangeli, Stefano Dugheri, Gianluca Bartolucci, Andrea Speltini, Giovanni Cappelli, and Giorgio Marrubini

Subjects

Chromatography, 010405 organic chemistry, Chemistry, 010401 analytical chemistry, Organic Chemistry, Clinical Biochemistry, Plasticizer, Tandem mass spectrometry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Analytical Chemistry, chemistry.chemical_compound, Trimellitic anhydride, Vaporization, Ion trap, Gas chromatography, Triethyloxonium tetrafluoroborate, Derivatization

Abstract

Trimellitic anhydride (TMAn) is an essential starting material of the chemical manufacturing industry; it is widely used in saturated polyester resins (SPR) manufacturing to produce plasticizers for different purposes. TMAn was recently added, as a new substance of very high concern, to the candidate list by the European Chemicals Agency, since it can lead to sensitization, respiratory tract irritation and lung disease. Any substance from the list of candidates if present in manufactured products at concentrations above 0.1% (w/w) obliges the manufacturer to communicate this to customers down the supply chain and to consumers. We propose here a method that allows the fully automated determination of TMAn in SPR samples by using large volume injection (LVI), with programmed temperature vaporization (PTV) injection, in a gas chromatographic (GC) system equipped with ion trap mass spectrometer (IT) operating in tandem mass spectrometry (MS/MS). The method optimization was obtained by a chemometric model, using the experimental design. Introducing the use of short chromatographic column, triethyloxonium tetrafluoroborate (TEO) as derivatization agent and IS granted specificity, sensitivity and robustness. The detection and quantification limits for TMAn were 0.01% and 0.03% w/w, respectively. Trueness (between 94 and 98%) and precision (RSD lower than 10%, n = 6) were also assessed.

Published

2020

5. Solid phase microextraction techniques used for gas chromatography: a review

Author

Giorgio Marrubini, Stefano Dugheri, Marcello Campagna, Giulio Arcangeli, Daniela Ubiali, Manfredi Montalti, Alessandro Bonari, Giovanni Cappelli, and Nicola Mucci

Subjects

Chemometrics, Chromatography, Chemistry, 010401 analytical chemistry, Sample preparation, 02 engineering and technology, General Chemistry, Gas chromatography, 021001 nanoscience & nanotechnology, 0210 nano-technology, Solid-phase microextraction, 01 natural sciences, 0104 chemical sciences

Abstract

In the last decade, the development and adoption of greener and sustainable microextraction techniques have been proved to be an effective alternative to classical sample preparation procedures. In this review, 10 commercially available solid-phase microextraction systems are presented, with special attention to the appraisal of their analytical, bioanalytical, and environmental engineering. This review provides an overview of the challenges and achievements in the application of fully automated miniaturized sample preparation methods in analytical laboratories. Both theoretical and practical aspects of these environment-friendly preparation approaches are discussed. The application of chemometrics in method development is also discussed. We are convinced that green analytical chemistry will be really useful in the years ahead. The application of cheap, fast, automated, “clever”, and environmentally safe procedures to environmental, clinical, and food analysis will improve significantly the quality of the analytical data.

Published

2020

6. An Upgrade of Apparatus and Measurement Systems for Generation of Gaseous Formaldehyde: A Review

Author

Lucia Trevisani, Maria Cristina Bonferoni, Giovanni Cappelli, Giorgio Marrubini, Nicola Mucci, Giulio Arcangeli, Daniela Massi, and Stefano Dugheri

Subjects

Gaseous formaldehyde, Chemistry, 010401 analytical chemistry, Formaldehyde, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, chemistry.chemical_compound, Upgrade, Environmental chemistry, Animals, Humans, Gases, 0210 nano-technology

Abstract

Formaldehyde (FA) is ubiquitous in the atmospheric environment. It is generally the dominant atmospheric carbonyl compound. Due to its well-known carcinogenicity, FA is a compound that arises the attention in the scientific community. In studies concerning the toxicological effects of FA on humans, animals, and the environment, testing and calibration of air sampling systems and analytical instruments are pivotal. Therefore, the preparation of controllable standard gaseous atmospheres containing FA at levels known with precision and accuracy is essential. This review summarizes the procedures for generating the FA atmosphere, given that operative solutions have been evolving recently. Furthermore, an overview on the available system to collect and store gaseous standard is reported. The progressively implemented FA generation techniques, together with commercially-available instruments, are herein described, classified, and compared.

Published

2021

7. Monitoring of Air-Dispersed Formaldehyde and Carbonyl Compounds as Vapors and Adsorbed on Particulate Matter by Denuder-Filter Sampling and Gas Chromatographic Analysis

Author

Marcello Campagna, Giulio Arcangeli, Giacomo Garzaro, Gianluca Bartolucci, Nicola Mucci, Alessandro Bonari, Giovanni Cappelli, Stefano Dugheri, and Giorgio Marrubini

Subjects

Pollution, Chromatography, Gas, PM2.5, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Formaldehyde, lcsh:Medicine, Fraction (chemistry), 010501 environmental sciences, 01 natural sciences, Article, air pollution analysis, Acetone, chemistry.chemical_compound, 2,4-dinitrophenylhydrazine derivatization, Air pollution analysis, Aldehydes, Carbonyl compounds, Environmental analysis, 0105 earth and related environmental sciences, media_common, Air filter, Air Pollutants, 010401 analytical chemistry, lcsh:R, fungi, Public Health, Environmental and Occupational Health, Particulates, 0104 chemical sciences, Aerosol, carbonyl compounds, chemistry, 4-dinitrophenylhydrazine derivatization, Air Filters, Italy, Environmental chemistry, environmental analysis, Air Pollution, Indoor, Environmental science, Particle, formaldehyde, Particulate Matter, Gas chromatography, Adsorption, Environmental Monitoring

Abstract

Carbonyl compounds (CCs) are products present both as vapors and as condensed species adsorbed on the carbonaceous particle matter dispersed in the air of urban areas, due to vehicular traffic and human activities. Chronic exposure to CCs is a potential health risk given the toxicity of these chemicals. The present study reports on the measurement of the concentrations of 14 CCs in air as vapors and 2.5 &micro, m fraction PM by the ENVINT GAS08/16 gas/aerosol sampler, a serial sampler that uses annular denuder, as sampling device. The 14 CCs were derivatized during sampling prior to gas-chromatographic separation and multiple detection by mass spectrometry, nitrogen-phosphorus thermionic, electron capture detection. Outdoor air multiple samples were collected in four locations in the urban area of Florence. The results evidenced that formaldehyde, acetaldehyde, and acetone were the more abundant CCs in the studied areas. The data collected was discussed considering the particle to vapor ratio of each CC found. The CCs pollution picture obtained was tentatively related to the nature and intensity of the traffic transiting by the sampling sites. This approach allowed to determine 14 CCs in both concentrated and diluted samples and is proposed as a tool for investigating outdoor and indoor pollution.

Published

2019

8. Characterization and Separation of Platinum-Based Antineoplastic Drugs by Zwitterionic Hydrophilic Interaction Liquid Chromatography (HILIC)–Tandem Mass Spectrometry, and Its Application in Surface Wipe Sampling

Author

Giorgio Marrubini, Donato Squillaci, Stefano Dugheri, Enrico Mini, Elisabetta Bucaletti, Lucia Trevisani, Giovanni Cappelli, Giulio Arcangeli, Gianluca Bartolucci, and Nicola Mucci

Subjects

QC1-999, cisplatin, Filtration and Separation, Tandem mass spectrometry, Mass spectrometry, liquid chromatography–mass spectrometry, 01 natural sciences, design of experiments (DoE), Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Liquid chromatography–mass spectrometry, medicine, Sample preparation, QD1-999, Cisplatin, Chromatography, Chemistry, Physics, Hydrophilic interaction chromatography, oxaliplatin, 010401 analytical chemistry, wipe sampling, Carboplatin, 0104 chemical sciences, Oxaliplatin, platinum-based antineoplastic drugs, 030220 oncology & carcinogenesis, carboplatin, HILIC–Z, medicine.drug

Abstract

Platinum-based antineoplastic drugs (PtADs) are among the most important and used families of chemotherapy drugs, which, even showing severe side effects and being hindered by drug resistance, are not likely to be replaced clinically any time soon. The growing interest in the occupational health community in antineoplastic drug (AD) surface contamination requires the development of increasingly fast and easy high-throughput monitoring methods, even considering the lack of harmonized legally binding regulation criteria. Thus, a wipe sampling method together with zwitterionic hydrophilic interaction liquid chromatography (HILIC-Z)–tandem mass spectrometry (MS/MS) analysis was developed for the simultaneous evaluation of oxaliplatin, cisplatin, and carboplatin surface contaminations. A design of experiments approach was used to optimize the chromatographic conditions. Limits of quantification ranging from 2 to 5 ng/mL were obtained from interday and intraday repetitions for oxaliplatin and carboplatin, and between 170 and 240 ng/mL for cisplatin. The wipe desorption procedure is equivalent to other AD sampling methods, enabling a fast sample preparation, with an LC-MS/MS analysis time of less than 7 min.

Published

2021

9. Exposure to airborne formaldehyde: Sampling and analytical methods—A review

Author

Stefano Dugheri, Giorgio Marrubini, Giovanni Cappelli, Andrea Speltini, Daniela Massi, Maria Cristina Bonferoni, Nicola Mucci, and Giulio Arcangeli

Subjects

Measure (data warehouse), business.industry, 010401 analytical chemistry, Sampling (statistics), 010501 environmental sciences, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Air monitoring, Scientific database, Calibration, Environmental Chemistry, Environmental science, Uv detection, Process engineering, business, 0105 earth and related environmental sciences, Passive sampling

Abstract

Air monitoring is the quantitative-qualitative assessment of the extent of pollutants. It is performed to ensure compliance with legislation and to evaluate control measures and mitigation solutions. There are numerous approaches to measure airborne formaldehyde (FA), ranging from passive sampling techniques to remote sensing devices. Research of sampling procedures and analytical methods was performed in a scientific database and on the web to offer a scenario of the devices and techniques that can be used to assess FA exposure. Moreover, in the design of FA assessment, some crucial aspects were considered, such as standard atmosphere generation for devices calibration. This review summarizes the tools and basics used in FA air monitoring, useful to organize a functional monitoring strategy for assessment of FA concentration levels. An insight into the sampling and analysis of FA is provided. Recent advances in solid sorbent technology allow analysts to use these devices coupled to chromatographic instruments. A comparison of the strengths and weaknesses of analytical methods (gas-/liquid-chromatography coupled with mass spectrometry or UV detection, chromogenic, colorimetric, electrochemical determination) and sampling devices (impregnated papers, solid sorbents, liquid sorbents, bubblers, impingers, micro-impingers, denuder samplers, sealed bags, canisters) methods are illustrated. This survey found that a monitoring strategy should be planned considering the most appropriate methodology in terms of costs and practicability. Therefore, it is necessary to know the aspects that can make the chosen strategy suitable and valid for the exposure scenario under investigation.

Published

2021

10. High-Throughput Analysis of Selected Urinary Hydroxy Polycyclic Aromatic Hydrocarbons by an Innovative Automated Solid-Phase Microextraction

Author

Marcello Campagna, Stefano Dugheri, Costanza Bossi, Giulio Arcangeli, Ilenia Pompilio, Alessandro Bonari, Giovanni Cappelli, Nicola Mucci, and Matteo Gentili

Subjects

analytical_chemistry, gas-chromatography, MTBSTFA, OH-PAHs, SPME, Humans, Limit of Detection, Polycyclic Aromatic Hydrocarbons, High-Throughput Screening Assays, Solid Phase Microextraction, Pharmaceutical Science, Mass spectrometry, Solid-phase microextraction, 01 natural sciences, Article, Analytical Chemistry, lcsh:QD241-441, chemistry.chemical_compound, lcsh:Organic chemistry, Occupational hygiene, Drug Discovery, Physical and Theoretical Chemistry, Derivatization, Detection limit, Chromatography, 010405 organic chemistry, Chemistry, 010401 analytical chemistry, Organic Chemistry, Repeatability, 0104 chemical sciences, Chemistry (miscellaneous), Molecular Medicine, Pyrene, Gas chromatography

Abstract

High-throughput screening of samples is the strategy of choice to detect occupational exposure biomarkers, yet it requires a user-friendly apparatus that gives relatively prompt results while ensuring high degrees of selectivity, precision, accuracy and automation, particularly in the preparation process. Miniaturization has attracted much attention in analytical chemistry and has driven solvent and sample savings as easier automation, the latter thanks to the introduction on the market of the three axis autosampler. In light of the above, this contribution describes a novel user-friendly solid-phase microextraction (SPME) off- and on-line platform coupled with gas chromatography and triple quadrupole-mass spectrometry to determine urinary metabolites of polycyclic aromatic hydrocarbons 1- and 2-hydroxy-naphthalene, 9-hydroxy-phenanthrene, 1-hydroxy-pyrene, 3- and 9-hydroxy-benzoantracene, and 3-hydroxy-benzo[a]pyrene. In this new procedure, chromatography&rsquo, s sensitivity is combined with the user-friendliness of N-tert-butyldimethylsilyl-N-methyltrifluoroacetamide on-fiber SPME derivatization using direct immersion sampling, moreover, specific isotope-labelled internal standards provide quantitative accuracy. The detection limits for the seven OH-PAHs ranged from 0.25 to 4.52 ng/L. Intra-(from 2.5 to 3.0%) and inter-session (from 2.4 to 3.9%) repeatability was also evaluated. This method serves to identify suitable risk-control strategies for occupational hygiene conservation programs.

Published

2018

11. New fully automated gas chromatographic analysis of urinary S-phenylmercapturic acid in isotopic dilution using negative chemical ionization with isobutane as reagent gas

Author

Stefano Dugheri, Alessandro Bonari, Giovanni Cappelli, Marcello Campagna, Giulio Arcangeli, Gianluca Bartolucci, and Nicola Mucci

Subjects

Analyte, Chemical ionization, Chromatography, 010405 organic chemistry, Chemistry, 010401 analytical chemistry, Isotope dilution, Mass spectrometry, 01 natural sciences, Ion source, 0104 chemical sciences, chemistry.chemical_compound, Reagent, Isobutane, Gas chromatography, Spectroscopy

Abstract

The determination of urinary S-phenylmercapturic acid (S-PMA) represents the most reliable biomarker to monitor the intake risk of airborne benzene. Recently, the European Chemical Agency deliberated new occupational exposure limits for benzene and recommended an S-PMA biological limit value of 2-μg/g creatinine. This limit is an order of magnitude lower than the previous one, and its determination constitutes a challenge in the analytical field. We developed and validated a method that allows the fully automated and sensitive determination of S-PMA by the use of gas-chromatography negative chemical ionization tandem mass spectrometry in isotopic dilution. For negative chemical ionization, we selected a mixture of 1% isobutane in argon as reactive gas, by studying its chemical ionization mechanism and optimal parameters compared with pure isobutane or pure methane. This gas mixture produces a more abundant signal of the target analyte than isobutane or methane, and it extended the operative lifetime of the ion source, enabling us to start a high-throughput approach of the S-PMA analysis. Moreover, energy-resolved mass spectrometry experiments were carried out to refine the MS/MS analysis conditions, testing nitrogen and argon as collision gases. The method optimization was pursued by a chemometric model by using the experimental design. The quantification limit for S-PMA was 0.10 μg/L. Accuracy (between 98.3% and 99.6%) and precision (ranging from 1.6% to 6.4%) were also evaluated. In conclusion, the newly developed assay represents a powerful tool for the robust, reliable, and sensitive quantification of urinary S-PMA, and because of its automation, it is well suited for application in large environmental and biological monitoring.

Published

2019