Riassunto
La microestrazione in fase solida (SPME), introdotta nella seconda metà degli anni Novanta del secolo scorso, ha rivoluzionato le tecniche di estrazione e si è diffusa rapidamente grazie alla semplicità di utilizzo e alle ottime prestazioni (vedi cap. 7). Tuttavia, la quantità di fase estraente nella fibra SPME è molto limitata (una fibra di 100 μm di spessore corrisponde a un volume di circa 0,5 μL), di conseguenza l’efficienza di estrazione per soluti parzialmente solubili in acqua è piuttosto bassa. Per ovviare a tale limite, fu proposta nel 1999 la stir bar sorptive extraction (SBSE), una tecnica per l’estrazione e l’arricchimento di composti organici da matrici acquose in una fase liquida non miscibile (Baltussen et al, 1999), che utilizza ancorette magnetiche (stir bar, Fig. 8.1) incapsulate in una camicia di vetro e rivestite da uno strato absorbente (da 0,5 a 1 mm di spessore) di PDMS, con un volume di fase estraente 50–250 volte maggiore rispetto a quello utilizzato nelle fibre SPME. I principi teorici alla base della tecnica SBSE sono identici a quelli della SPME, già descritti in dettaglio nel cap. 7, al quale si rimanda.
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Bibliografia
Alvarez-Aviles O, Cuadra L, Rosario O (2005) Optimization of microwave-assisted extraction/stir bar sorptive extraction/thermal desorption/gas chromatography/mass spectrometry methodology for the organic chemical characterization of particulate matter. Paper Anyl 259, presented at the 229th American Chemistry Society National Meeting (San Diego, March 13–17, 2005)
Baltussen E, Sandra P, David F, Cramers C (1999) Stir bar sorptive extraction (SBSE), a novel extraction technique for aqueous samples: Theory and principles. Journal of Microcolumn Separations, 11(10): 737–747
Beltran J, Lopez FJ, Cepria O, Hernandez F (1998) Solid-phase microextraction for quantitative analysis of organophosphorus pesticides in environmental water samples. Journal of Chromatography A, 808(1–2): 257–263
Benanou D, Acobas F, de Roubin MR et al (2003) Analysis of off-flavors in the aquatic environment by stir bar sorptive extraction-thermal desorption-capillary GC/MS/olfactometry. Analytical and Bioanalytical Chemistry, 376(1): 69–77
Bicchi C, Cordero C, Iori C et al (2000) Headspace sorptive extraction (HSSE) in the headspace analysis of aromatic and medicinal plants. Journal of High Resolution Chromatography, 23 (9): 539–546
Bicchi C, Cordero C, Liberto E et al (2005) Dual-phase twisters: A new approach to headspace sorptive extraction and stir bar sorptive extraction. Journal of Chromatography A, 1094(1–2): 9–16
Bicchi C, Cordero C, Liberto E et al (2008) Headspace sampling of the volatile fraction of vegetable matrices. Journal of Chromatography A, 1184(1–2): 220–233
Cacho JI, Campillo N, Aliste M et al (2014) Headspace sorptive extraction for the detection of combustion accelerants in fire debris. Forensic Science International, 238: 26–32
Callejón R.M, González AG, Troncoso AM, Morales ML (2008) Optimization and validation of head-space sorptive extraction for the analysis of volatile compounds in wine vinegars. Journal of Chromatography A, 1204(1): 93–103
David F, Sandra P (2007) Stir bar sorptive extraction for trace analysis. Journal of Chromatography A, 1152(1–2): 54–69
De Bruin LS, Josephy PD, Pawliszyn JB (1998) Solid-phase microextraction of monocyclic aromatic amines from biological fluids. Analytical Chemistry, 70(9): 1986–1992
Demyttenaere JCR, Moriña RM, Sandra P (2003) Monitoring and fast detection of mycotoxin-producing fungi based on headspace solid-phase microextraction and headspace sorptive extraction of the volatile metabolites. Journal of Chromatography A, 985(1–2): 127135
Desmet K, Tienpont B, Sandra P (2003) Analysis of 1-hydroxypyrene in urine as PAH exposure marker using in-situ derivatisation stir bar sorptive extraction-thermal desorption-capillary gas chromatography-mass spectrometry. Chromatographia, 57(9–10): 681–685
Dugay J, Miège C, Hennion M-C (1998) Effect of the various parameters governing solid-phase microextraction for the trace-determination of pesticides in water. Journal of Chromatography A, 795(1): 27–42
Gilart N, Marcé RM, Borrull F, Fontanals N (2014) New coatings for stir-bar sorptive extraction of polar emerging organic contaminants. Trends in Analytical Chemistry, 54: 11–23
Kawaguchi M, Ito R, Honda H et al (2008) Simultaneous analysis of benzophenone sunscreen compounds in water sample by stir bar sorptive extraction with in situ derivatization and thermal desorption-gas chromatography-mass spectrometry. Journal of Chromatography A, 1200(2): 260–263
Kawaguchi M, Ito R, Nakazawa H, Takatsu A (2012) Environmental and biological applications of stir bar sorptive extraction. In: Pawliszyn J (ed) Comprehensive sampling and sample preparation, Vol. 3. Elsevier, Amsterdam
Kawaguchi M, Ito R, Saito K, Nakazawa H (2006) Novel stir bar sorptive extraction methods for environmental and biomedical analysis. Journal of Pharmaceutical and Biomedical Analysis, 40 (3): 500–508
Kawaguchi M, Takatsu A, Ito R, Nakazawa H (2013) Applications of stir-bar sorptive extraction to food analysis. Trends in Analytical Chemistry, 45: 280–293
Lambert J-P, Mullett WM, Kwong E, Lubda D (2005) Stir bar sorptive extraction based on restricted access material for the direct extraction of caffeine and metabolites in biological fluids. Journal of Chromatography A, 1075(1–2): 43–49
Lancas FM, Queiroz MEC, Grossi P, Olivares IRB (2009) Recent developments and applications of stir bar sorptive extraction. Journal of Separation Science, 32(5–6): 813–824
León VM, Álvarez B, Cobollo MA et al (2003) Analysis of 35 priority semivolatile compounds in water by stir bar sorptive extraction-thermal desorption-gas chromatography-mass spectrometry: I. Method optimisation. Journal of Chromatography A, 999(1–2): 91–101
León VM, Llorca-Pórcel J, Álvarez B et al (2006) Analysis of 35 priority semivolatile compounds in water by stir bar sorptive extraction-thermal desorption-gas chromatography-mass spectrometry: Part II: Method validation. Analytica Chimica Acta, 558(1–2): 261–266
Liu W, Hu Y, Zhao J et al (2005) Determination of organophosphorus pesticides in cucumber and potato by stir bar sorptive extraction. Journal of Chromatography A, 1095(1–2): 1–7
Liu W, Wang H, Guan Y (2004) Preparation of stir bars for sorptive extraction using sol-gel technology. Journal of Chromatography A, 1045(1–2): 15–22
Nie Y, Kleine-Benne E (2011) Using three types of twister phases for stir bar sorptive extraction of whisky, wine and fruit juice. Gerstel AppNote 3/2011 http://www.gerstel.com/pdf/p-gc-an-2011-03.pdf
Ochiai N, Sasamoto K, Kanda H (2008) A novel extraction procedure for stir bar sorptive extraction (SBSE): sequential sbse for uniform enrichment of organic pollutants in water samples. Gerstel AppNote 12/2008 http://www.gerstel.de/pdf/p-gc-an-2008-12corrected
Pfannkoch E, Whitecavage J, Hoffmann A (2001) Stir bar sorptive extraction: enhancing selectivity of the PDMS phase. Gerstel AppNote 2/2001 http://www.gerstel.com/pdf/p-gc-an-2001-02.pdf
Popp P, Keil P, Montero L, Rückert M (2005) Optimized method for the determination of 25 polychlorinated biphenyls in water samples using stir bar sorptive extraction followed by thermodesorptiongas chromatography/mass spectrometry. Journal of Chromatography A, 1071(1–2): 155–162
Prieto A, Basauri O, Rodil R et al (2010) Stir-bar sorptive extraction: A view on method optimisation, novel applications, limitations and potential solutions. Journal of Chromatography A, 1217(16): 2642–2666
Rodil R, Popp P (2006) Determination of trace level chemical warfare agents in water and slurry samples using hollow fibre-protected liquid-phase microextraction followed by gas chromatography-mass spectrometry. Journal of Chromatography A, 1124(1–2) 82–90
Rodríguez Madrera R, Suárez Valles B (2011) Determination of volatile compounds in apple pomace by stir bar sorptive extraction and gas chromatography-mass spectrometry (SBSE-GC-MS). Journal of Food Science, 76(9): C1326–C1334
Sandra P, Baltussen E, David F, Hoffmann A (2000) Stir bar sorptive extraction (SBSE) applied to environmental aqueous samples. Gerstel AppNote 2/2000 http://www.gerstel.com/pdf/p-gc-an-2000-02.pdf
Splivallo R, Bossi S, Maffei M, Bonfante P (2007) Discrimination of truffle fruiting body versus mycelian aromas by stir bar sorptive extraction. Phytochemistry, 68(20): 2584–2598
Stopforth A, Grobbelaar CJ, Crouch AM, Sandra P (2007) Quantification of testosterone and epitestosterone in human urine samples by stir bar sorptive extraction-thermal desorption-gas chromatography/mass spectrometry: Application to HIV-positive urine samples. Journal of Chromatography A, 30(2): 257–265
Stopforth A, Tredoux A, Crouch A et al (2005) A rapid method of diagnosing pulmonary tuberculosis using stir bar sorptive extraction-thermal desorption-gas chromatography-mass spectrometry. Journal of Chromatography A, 1071(1–2): 135–139
Tienpont B, David F, Bicchi C, Sandra P (2000) High capacity headspace sorptive extraction. Journal of Microcolumn Separations, 12(11): 577–584
Yang C, Wang J, Li D (2013) Microextraction techniques for the determination of volatile and semivolatile organic compounds from plants: A review. Analytica Chimica Acta, 799: 8–22
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Purcaro, G., Moret, S. (2014). Stir bar sorptive extraction (SBSE) e head space sorptive extraction (HSSE). In: Il campione per l’analisi chimica. Food. Springer, Milano. https://doi.org/10.1007/978-88-470-5738-8_8
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