Positive vs. false detection: A comparison of analytical methods and performance for analysis of cyclic volatile methylsiloxanes (cVMS) in environmental samples from remote regions

Warner, Nick; Kozerski, Gary E.; Durham, Jeremy; Koerner, Martin; Gerhards, R.; Campbell, R. A.; McNett, Debra A.

doi:10.1016/j.chemosphere.2012.10.045

Cited by 32 publications

(20 citation statements)

References 12 publications

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“…Como otro ejemplo podemos citar a Kaj y col. 11,12 que utilizan sílice como matriz blanca para el control de la toma de muestra en análisis de suelos, fangos y sedimentos. Así mismo, se ha utilizado grasa de cerdo homogeneizada como blanco de muestreo para la determinación de D4, D5 y D6 en hígado de peces y grasa de focas, 39,48 y el adsorbente Isolute ENVI+ (~60 mg) se ha empleado como blanco de muestreo en el análisis de D4, D5 y D6 en zooplancton y peces. 2,41 Debe decirse que todas estas alternativas pueden ser aceptables para la preparación de muestras blancas para el análisis de VMS, siempre y cuando las mismas permitan simular de manera suficientemente adecuada el comportamiento de las muestras reales durante el muestreo y el análisis.…”

Section: Figura 2 Contaminación De Fondo Detectada En El Análisis Deunclassified

“…Como puede notarse, para el caso de matrices sólidas la extracción con disolvente se realiza, por lo común, aplicando agitación utilizando un vortex. Los disolventes comúnmente utilizados son: n-hexano, n-pentano, acetonitrilo, clorobenceno, y mezclas acetato de etilo/n-hexano y diclorometano/n-hexano [11][12][13]39,44,48,[55][56][57][58][59] . Como alternativa a la extracción con disolvente mediante agitación, también se ha aplicado la extracción asistida por ultrasonidos (UAE) 51,59,60 y la extracción con líquidos presurizados (PLE), 43 sin embargo, estos métodos no son recomendables dado el hecho de que pueden producirse pérdidas de los analitos más volátiles al utilizarse elevadas temperaturas y presión.…”

Section: Pérdidas Por Volatilizaciónunclassified

“…30 En cuanto a las dificultades que se pueden presentar en el análisis de estos compuestos, debe destacarse que existen dos de notable influencia: la presencia de contaminación de fondo y la ocurrencia de pérdidas por volatilización, las que pueden afectar de manera significativa la determinación cuantitativa de los VMS. 31,32 Dada la importancia que tiene este tema, en esta revisión se discuten los problemas relacionados con el análisis de los VMS, y se comentan diferentes estrategias que se han propuesto en la literatura para una determinación analítica adecuada de los VMS.…”

Section: Introductionunclassified

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Problemas en el análisis de metilsiloxanos volátiles (VMS): origen y soluciones

Companioni-Damas¹

2016

Quim. Nova

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PROBLEMS IN THE ANALYSIS OF VOLATILE METILSILOXANES (VMS): ORIGIN AND SOLUTIONS. Volatile methylsiloxanes (VMS) are pollutants widely distributed in the environment due to its extensive uses and high volatility. The analysis of these compounds is commounly performed by gas chromatography -mass spectrometry (GC-MS), and it is dificult due to the presence of background contamination and volatile losses. Different preconcentration techniques such as purge and trap (P&T), headspace (HS) and headspace -solid phase microextraccion (HS-SPME) have been applied for the analysis of VMS in environmental samples. Alternatively, solvent extraction combined with large volume injection techniques has been an effective method for the analysis of complex matrices (eg. wastewater, sludges). In this review, the efficiency of the different methods reported for the analysis of VMS is discussed, and different solutions are proposed to minimize background contamination and volatilization.Keywords: volatile methylsiloxanes; GC-MS, background contamination; large volume injection. INTRODUCCIÓNLos siloxanos son compuestos constituidos por átomos de silicio y oxígeno enlazados entre sí de forma alternada, donde cada átomo de silicio se encuentra a su vez unido a uno o diferentes grupos orgánicos. Dentro de esta familia de compuestos los metilsiloxanos de cadena corta conocidos como metilsiloxanos volátiles (VMS), han recibido una especial atención en los últimos años debido a su elevada capacidad de bioacumulación, 1-7 potencial cancerogenicidad 8-10 y amplia distribución ambiental. 11-21 Estos compuestos se presentan en conformaciones lineales o cíclicas tal y como se ilustra en la Figura 1, y se caracterizan principalmente por presentar una elevada presión de vapor (2.3 -5620 Pa a 25 o C) y baja solubilidad en agua (0.07 -1560 µg L -1 a 25 o C). [22][23][24] Entre sus principales aplicaciones se encuentra su uso como constituyentes básicos en cosméticos y productos de higiene personal, como materiales de partida para la síntesis de polisiloxanos de elevado peso molecular, y su empleo como aditivos en productos de limpieza, desengrasantes, lubricantes, disolventes, pinturas, lacas y barnices.Como consecuencia de su amplia utilización los VMS se emiten en grandes cantidades al medio ambiente. La elevada volatilidad de estos compuestos condiciona que más del 90% de los VMS se emitan a la atmosfera, mientras que tan solo un 10 % se descarga en las aguas residuales tanto industriales como urbanas. 25 Se ha demostrado que su mayor emisión a la atmósfera se produce en zonas cercanas a plantas depuradoras de aguas residuales, aunque también constituyen importantes focos de emisión de VMS, aquellos relacionados al uso y la fabricación de productos de higiene personal, siendo considerados como una de sus principales vías de entrada al medio ambiente. [11][12][13]26 En cuanto a la toxicidad de los VMS, la mayor parte de los estudios publicados están enfocados a los VMS cíclicos, ya que este grupo de compuestos son los que se encuentran en mayore...

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Section: Figura 2 Contaminación De Fondo Detectada En El Análisis Deunclassified

Section: Pérdidas Por Volatilizaciónunclassified

Section: Introductionunclassified

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Problemas en el análisis de metilsiloxanos volátiles (VMS): origen y soluciones

Companioni-Damas¹

2016

Quim. Nova

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“…7 Extra care is needed to minimise or eliminate these sources of contamination, particularly when dealing with samples of matrices that are hard to analyse per se and with levels of target chemical close to the limits of detection. 24 With these assumptions, and to help the enhancement of the still limited knowledge about the fate and behaviour of siloxanes, 1 expedite and reliable analytical methods were developed in this work for the extraction and quantification of VMSs in air, soil and vegetation samples, with a focus toward solvent-saving approaches. This included an original application of the QuEChERS (Quick, Easy, Cheap, Effective, Rugged, and Safe) extraction method to soil and pine needles.…”

Section: Introductionmentioning

confidence: 99%

Solvent-saving approaches for the extraction of siloxanes from pine needles, soils and passive air samplers

et al. 2016

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In this study, a solvent-saving analytical strategy was validated to quantify the levels of 8 volatile methyl siloxanes (VMSs) in pine needles, soils and air (measured by sorbent-impregnated polyurethane foam passive samplers, SIPs). Different extraction solvents and sample handling procedures were tested and the protocol that reached the highest recoveries employed QuEChERS (Quick, Easy, Cheap, Effective, Rugged, and Safe) and was adapted to pine needles and soils. For SIPs, another method was developed in parallel, as QuEChERS could not be applied to this matrix due to logistic and operative constraints. Thus, extraction was performed using classic Soxhlet extractors and a short clean-up step, limited to the removal of water by a solid-phase extraction (SPE) column containing sodium sulphate. The quantification of the target compounds was performed by gas chromatography/mass spectroscopy (GC/ MS), with identical set-ups for the three matrices. Similar validation protocols were applied and yielded limits of detection (LODs) from 1.8 to 10.8 ng kg -1 (dry weight) for pine needles, from 3.4 to 19.8 ng kg -1 (dw) for soils and from 4.7 to 10.2 ngSIP -1 (dw) for SIPs. The overall mean recoveries were 75 ± 11%, 69 ± 17% and 87 ± 8%, respectively. The application of the methodologies to naturally contaminated samples collected in an urban and a remote site revealed siloxane levels comparable to other studies in the literature and a predominance of the cyclic siloxanes over the linear ones, which were frequently not detected. IntroductionThe analysis of siloxanes in environmental matrices is quite a challenging task, mainly due to their ubiquitous use since they were first produced in the 1940s. 1 The recent attention given by the scientific community to these chemicals (in particular to organosiloxanes) derives from reports mentioning persistence and possible harmful effects to the environment and ecosystems. 2 Siloxanes are organosilicon compounds consisting of alternating Si-O bonds as a backbone with organic side chains which can be classified as either linear or cyclic according to their structure. 3 These anthropogenic compounds have a wide range of use and are incorporated into a variety of household and industrial applications, such as in cosmetics and other 2 personal care products, textiles, pharmaceuticals, electronics, furniture, food and construction, among others. 4-6A special focus has been given to volatile methyl siloxanes (VMSs), which are organosilicons with low molecular weights and high vapour pressures that can be derived from PDMS hydrolysis. 7,8 Their presence was shown in several environmental matrices such as outdoor and indoor air, 9-11 soil 12,13 aquatic media, 14,15 sediments, 16 wastewater and sludge, 17-19 biota 20,21 or vegetation. 22 Regarding the extraction and quantification of VMSs in these complex matrices, also the analytical approaches reflect an increasing development in the last years. Three recent reviews reported a thorough list of options that include extraction by Soxhlet, ...

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“…61,94 Further, the false detection is often a significant hindrance to obtaining reliable information in fields beyond remote detection, indicating it is a persistent problem across the sciences and typically requires corrections applied to a targeted problem in the data set being studied. 99 Chapters 4 and 5 demonstrated that while false detections are not a highly prevalent problem with the radioisotope classifier methodology, they can still distract attention from the true location of a target source. While the confidence model developed in Chapter 4 has been effective in downplaying the impact of false detections, eliminating false detections entirely is more desirable.…”

Section: Discussionmentioning

confidence: 99%

Signal processing and pattern recognition methods for the remote, airborne detection of radioisotopes by gamma-ray spectroscopy

Dess¹

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Positive vs. false detection: A comparison of analytical methods and performance for analysis of cyclic volatile methylsiloxanes (cVMS) in environmental samples from remote regions

Cited by 32 publications

References 12 publications

Problemas en el análisis de metilsiloxanos volátiles (VMS): origen y soluciones

Problemas en el análisis de metilsiloxanos volátiles (VMS): origen y soluciones

Solvent-saving approaches for the extraction of siloxanes from pine needles, soils and passive air samplers

Signal processing and pattern recognition methods for the remote, airborne detection of radioisotopes by gamma-ray spectroscopy

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