Surface-enhanced Raman spectroscopy of blood plasma and serum using Ag and Au nanoparticles: a systematic study
Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, cou...
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| Published in | Analytical and bioanalytical chemistry Vol. 406; no. 9-10; pp. 2355 - 2365 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.04.2014
Springer Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1618-2642 1618-2650 1618-2650 |
| DOI | 10.1007/s00216-014-7622-1 |
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| Abstract | Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests. |
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| AbstractList | Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests. Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests.Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests. Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests. Keywords Surface-enhanced Raman spectroscopy * SERS * Blood * Plasma * Serum * Nanoparticles Issue Title: Trends and Critical Reviews/Bioimaging of trace elements in human lenses/FTIR spectroscopy for analyzing tears/Bisphenol A determination by fiber-optic sensors Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests. |
| Audience | Academic |
| Author | Steffan, Agostino Bonifacio, Alois Colombatti, Alfonso Cervo, Silvia Spizzo, Riccardo Sergo, Valter Dalla Marta, Silvia |
| Author_xml | – sequence: 1 givenname: Alois surname: Bonifacio fullname: Bonifacio, Alois email: abonifacio@units.it organization: Centre of Excellence for Nanostructured Materials and Department of Engineering and Architecture, University of Trieste – sequence: 2 givenname: Silvia surname: Dalla Marta fullname: Dalla Marta, Silvia organization: Centre of Excellence for Nanostructured Materials and Department of Engineering and Architecture, University of Trieste – sequence: 3 givenname: Riccardo surname: Spizzo fullname: Spizzo, Riccardo organization: Division of Experim. Oncology 2, CRO Aviano, National Cancer Institute – sequence: 4 givenname: Silvia surname: Cervo fullname: Cervo, Silvia organization: CRO-Biobank, CRO Aviano, National Cancer Institute – sequence: 5 givenname: Agostino surname: Steffan fullname: Steffan, Agostino organization: CRO-Biobank, CRO Aviano, National Cancer Institute – sequence: 6 givenname: Alfonso surname: Colombatti fullname: Colombatti, Alfonso organization: Division of Experim. Oncology 2, CRO Aviano, National Cancer Institute, Centre of Excellence MAT Department of Medical and Biological Science, University of Udine – sequence: 7 givenname: Valter surname: Sergo fullname: Sergo, Valter organization: Centre of Excellence for Nanostructured Materials and Department of Engineering and Architecture, University of Trieste |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24493335$$D View this record in MEDLINE/PubMed |
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| Copyright | Springer-Verlag Berlin Heidelberg 2014 COPYRIGHT 2014 Springer |
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| References | Haiss, Thanh, Aveyard, Fernig (CR19) 2007; 79 Lee, Meisel (CR15) 1982; 86 Han, Ozaki, Zhao (CR5) 2012; 38 Liu, Zi, Kang (CR34) 2011; 42 Vendrell, Maiti, Dhaliwal, Chang (CR2) 2013; 31 Larmour, Faulds, Graham (CR7) 2012; 43 Leopold, Lendl (CR17) 2003; 107 Feng, Chen, Lin (CR9) 2011; 26 Zhang, Ansar, Vangala, Jiang (CR31) 2010; 41 Kimling, Maier, Okenve (CR14) 2006; 110 Walkey, Chan (CR30) 2012; 41 Lin, Feng, Pan (CR10) 2011; 19 Sánchez-Cortés, García-Ramos (CR33) 1998; 29 Britton, Liaaen-Jensen, Pfander (CR22) 2009 Premasiri, Lee, Ziegler (CR32) 2012; 116 Okamoto, Imura (CR27) 2013; 4 Mock, Norton, Chen (CR26) 2011; 6 Aroca (CR16) 2006 Schlücker (CR6) 2011 Lin, Chen, Feng (CR35) 2011; 7 Henry, Bingham, Ringe (CR28) 2011; 115 Xie, Schlücker (CR1) 2013; 15 Lin, Chen, Feng (CR11) 2012; 43 Feng, Lin, Lin (CR12) 2013; 138 Tortora, Derrickson (CR36) 2009 Rycenga, Camargo, Li (CR25) 2010; 1 Chen, Lin, Feng, Ghomi (CR4) 2012 CR20 Creighton, Blatchford, Albrecht (CR18) 1979; 75 McClatchey (CR37) 2002 Munro, Smith, Garner (CR23) 1995; 11 Kiefer, Köhler, Möcks (CR24) 2005; 10 Turkevich, Stevenson, Hillier (CR13) 1951; 11 Pahlow, März, Seise (CR3) 2012; 12 Gebauer, Malissek, Simon (CR29) 2012; 28 Feng, Chen, Lin (CR8) 2010; 25 Core Team (CR21) 2013 CH Munro (7622_CR23) 1995; 11 XX Han (7622_CR5) 2012; 38 R Liu (7622_CR34) 2011; 42 J Turkevich (7622_CR13) 1951; 11 M Vendrell (7622_CR2) 2013; 31 KD McClatchey (7622_CR37) 2002 IA Larmour (7622_CR7) 2012; 43 W Kiefer (7622_CR24) 2005; 10 J Lin (7622_CR35) 2011; 7 7622_CR20 G Britton (7622_CR22) 2009 S Feng (7622_CR12) 2013; 138 J Lin (7622_CR11) 2012; 43 JS Gebauer (7622_CR29) 2012; 28 R Chen (7622_CR4) 2012 M Rycenga (7622_CR25) 2010; 1 GJ Tortora (7622_CR36) 2009 D Lin (7622_CR10) 2011; 19 W Haiss (7622_CR19) 2007; 79 S Sánchez-Cortés (7622_CR33) 1998; 29 W Xie (7622_CR1) 2013; 15 PC Lee (7622_CR15) 1982; 86 S Feng (7622_CR8) 2010; 25 N Leopold (7622_CR17) 2003; 107 R Aroca (7622_CR16) 2006 JJ Mock (7622_CR26) 2011; 6 D Zhang (7622_CR31) 2010; 41 S Pahlow (7622_CR3) 2012; 12 WR Premasiri (7622_CR32) 2012; 116 CD Walkey (7622_CR30) 2012; 41 R Core Team (7622_CR21) 2013 A-I Henry (7622_CR28) 2011; 115 H Okamoto (7622_CR27) 2013; 4 S Schlücker (7622_CR6) 2011 JA Creighton (7622_CR18) 1979; 75 S Feng (7622_CR9) 2011; 26 J Kimling (7622_CR14) 2006; 110 |
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| Title | Surface-enhanced Raman spectroscopy of blood plasma and serum using Ag and Au nanoparticles: a systematic study |
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