Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study

Shuxia Guo; Claudia Beleites; Ute Neugebauer; Sara Abalde-Cela; Nils Kristian Afseth; Fatima Alsamad; Suresh Anand; Cuauhtemoc Araujo-Andrade; Sonja Aškrabić; Ertug Avci; Monica Baia; Malgorzata Baranska; Enrico Baria; Luis A.E. Batista De Carvalho; Philippe De Bettignies; Alois Bonifacio; Franck Bonnier; Eva Maria Brauchle; Hugh J. Byrne; Igor Chourpa; Riccardo Cicchi; Frederic Cuisinier; Mustafa Culha; Marcel Dahms; Catalina David; Ludovic Duponchel; Shiyamala Duraipandian; Samir F. El-Mashtoly; David I. Ellis; Gauthier Eppe; Guillaume Falgayrac; Ozren Gamulin; Benjamin Gardner; Peter Gardner; Klaus Gerwert; Evangelos J. Giamarellos-Bourboulis; Sveinbjorn Gizurarson; Marcin Gnyba; Royston Goodacre; Patrick Grysan; Orlando Guntinas-Lichius; Helga Helgadottir; Vlasta Mohaček Grošev; Catherine Kendall; Roman Kiselev; Micha Kölbach; Christoph Krafft; Sivashankar Krishnamoorthy; Patrick Kubryck; Bernhard Lendl; Pablo Loza-Alvarez; Fiona M. Lyng; Susanne Machill; Cedric Malherbe; Monica Marro; Maria Paula M. Marques; Ewelina Matuszyk; Carlo Francesco Morasso; Myriam Moreau; Howbeer Muhamadali; Valentina Mussi; Ioan Notingher; Marta Z. Pacia; Francesco S. Pavone; Guillaume Penel; Dennis Petersen; Olivier Piot; Julietta V. Rau; Marc Richter; Maria Krystyna Rybarczyk; Hamideh Salehi; Katja Schenke-Layland; Sebastian Schlücker; Markus Schosserer; Karin Schütze; Valter Sergo; Faris Sinjab; Janusz Smulko; Ganesh D. Sockalingum; Clara Stiebing; Nick Stone; Valérie Untereiner; Renzo Vanna; Karin Wieland; Jürgen Popp; Thomas Bocklitz

doi:10.1021/acs.analchem.0c02696

Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study

Shuxia Guo, Claudia Beleites, Ute Neugebauer, Sara Abalde-Cela, Nils Kristian Afseth, Fatima Alsamad, Suresh Anand, Cuauhtemoc Araujo-Andrade, Sonja Aškrabić, Ertug Avci, Monica Baia, Malgorzata Baranska, Enrico Baria, Luis A.E. Batista De Carvalho, Philippe De Bettignies, Alois Bonifacio, Franck Bonnier, Eva Maria Brauchle, Hugh J. Byrne, Igor ChourpaRiccardo Cicchi, Frederic Cuisinier, Mustafa Culha, Marcel Dahms, Catalina David, Ludovic Duponchel, Shiyamala Duraipandian, Samir F. El-Mashtoly, David I. Ellis, Gauthier Eppe, Guillaume Falgayrac, Ozren Gamulin, Benjamin Gardner, Peter Gardner, Klaus Gerwert, Evangelos J. Giamarellos-Bourboulis, Sveinbjorn Gizurarson, Marcin Gnyba, Royston Goodacre, Patrick Grysan, Orlando Guntinas-Lichius, Helga Helgadottir, Vlasta Mohaček Grošev, Catherine Kendall, Roman Kiselev, Micha Kölbach, Christoph Krafft, Sivashankar Krishnamoorthy, Patrick Kubryck, Bernhard Lendl, Pablo Loza-Alvarez, Fiona M. Lyng, Susanne Machill, Cedric Malherbe, Monica Marro, Maria Paula M. Marques, Ewelina Matuszyk, Carlo Francesco Morasso, Myriam Moreau, Howbeer Muhamadali, Valentina Mussi, Ioan Notingher, Marta Z. Pacia, Francesco S. Pavone, Guillaume Penel, Dennis Petersen, Olivier Piot, Julietta V. Rau, Marc Richter, Maria Krystyna Rybarczyk, Hamideh Salehi, Katja Schenke-Layland, Sebastian Schlücker, Markus Schosserer, Karin Schütze, Valter Sergo, Faris Sinjab, Janusz Smulko, Ganesh D. Sockalingum, Clara Stiebing, Nick Stone, Valérie Untereiner, Renzo Vanna, Karin Wieland, Jürgen Popp, Thomas Bocklitz

Research output: Contribution to journal › Article › peer-review

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Abstract

The variable configuration of Raman spectroscopic platforms is one of the major obstacles in establishing Raman spectroscopy as a valuable physicochemical method within real-world scenarios such as clinical diagnostics. For such real world applications like diagnostic classification, the models should ideally be usable to predict data from different setups. Whether it is done by training a rugged model with data from many setups or by a primary-replica strategy where models are developed on a 'primary' setup and the test data are generated on 'replicate' setups, this is only possible if the Raman spectra from different setups are consistent, reproducible, and comparable. However, Raman spectra can be highly sensitive to the measurement conditions, and they change from setup to setup even if the same samples are measured. Although increasingly recognized as an issue, the dependence of the Raman spectra on the instrumental configuration is far from being fully understood and great effort is needed to address the resulting spectral variations and to correct for them. To make the severity of the situation clear, we present a round robin experiment investigating the comparability of 35 Raman spectroscopic devices with different configurations in 15 institutes within seven European countries from the COST (European Cooperation in Science and Technology) action Raman4clinics. The experiment was developed in a fashion that allows various instrumental configurations ranging from highly confocal setups to fibre-optic based systems with different excitation wavelengths. We illustrate the spectral variations caused by the instrumental configurations from the perspectives of peak shifts, intensity variations, peak widths, and noise levels. We conclude this contribution with recommendations that may help to improve the inter-laboratory studies.

Original language	English (US)
Pages (from-to)	15745-15756
Number of pages	12
Journal	Analytical Chemistry
Volume	92
Issue number	24
DOIs	https://doi.org/10.1021/acs.analchem.0c02696
State	Published - Dec 15 2020
Externally published	Yes

ASJC Scopus subject areas

Analytical Chemistry

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10.1021/acs.analchem.0c02696

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Guo, S., Beleites, C., Neugebauer, U., Abalde-Cela, S., Afseth, N. K., Alsamad, F., Anand, S., Araujo-Andrade, C., Aškrabić, S., Avci, E., Baia, M., Baranska, M., Baria, E., Batista De Carvalho, L. A. E., De Bettignies, P., Bonifacio, A., Bonnier, F., Brauchle, E. M., Byrne, H. J., ... Bocklitz, T. (2020). Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study. Analytical Chemistry, 92(24), 15745-15756. https://doi.org/10.1021/acs.analchem.0c02696

Guo, S, Beleites, C, Neugebauer, U, Abalde-Cela, S, Afseth, NK, Alsamad, F, Anand, S, Araujo-Andrade, C, Aškrabić, S, Avci, E, Baia, M, Baranska, M, Baria, E, Batista De Carvalho, LAE, De Bettignies, P, Bonifacio, A, Bonnier, F, Brauchle, EM, Byrne, HJ, Chourpa, I, Cicchi, R, Cuisinier, F, Culha, M, Dahms, M, David, C, Duponchel, L, Duraipandian, S, El-Mashtoly, SF, Ellis, DI, Eppe, G, Falgayrac, G, Gamulin, O, Gardner, B, Gardner, P, Gerwert, K, Giamarellos-Bourboulis, EJ, Gizurarson, S, Gnyba, M, Goodacre, R, Grysan, P, Guntinas-Lichius, O, Helgadottir, H, Grošev, VM, Kendall, C, Kiselev, R, Kölbach, M, Krafft, C, Krishnamoorthy, S, Kubryck, P, Lendl, B, Loza-Alvarez, P, Lyng, FM, Machill, S, Malherbe, C, Marro, M, Marques, MPM, Matuszyk, E, Morasso, CF, Moreau, M, Muhamadali, H, Mussi, V, Notingher, I, Pacia, MZ, Pavone, FS, Penel, G, Petersen, D, Piot, O, Rau, JV, Richter, M, Rybarczyk, MK, Salehi, H, Schenke-Layland, K, Schlücker, S, Schosserer, M, Schütze, K, Sergo, V, Sinjab, F, Smulko, J, Sockalingum, GD, Stiebing, C, Stone, N, Untereiner, V, Vanna, R, Wieland, K, Popp, J & Bocklitz, T 2020, 'Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study', Analytical Chemistry, vol. 92, no. 24, pp. 15745-15756. https://doi.org/10.1021/acs.analchem.0c02696

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title = "Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study",

abstract = "The variable configuration of Raman spectroscopic platforms is one of the major obstacles in establishing Raman spectroscopy as a valuable physicochemical method within real-world scenarios such as clinical diagnostics. For such real world applications like diagnostic classification, the models should ideally be usable to predict data from different setups. Whether it is done by training a rugged model with data from many setups or by a primary-replica strategy where models are developed on a 'primary' setup and the test data are generated on 'replicate' setups, this is only possible if the Raman spectra from different setups are consistent, reproducible, and comparable. However, Raman spectra can be highly sensitive to the measurement conditions, and they change from setup to setup even if the same samples are measured. Although increasingly recognized as an issue, the dependence of the Raman spectra on the instrumental configuration is far from being fully understood and great effort is needed to address the resulting spectral variations and to correct for them. To make the severity of the situation clear, we present a round robin experiment investigating the comparability of 35 Raman spectroscopic devices with different configurations in 15 institutes within seven European countries from the COST (European Cooperation in Science and Technology) action Raman4clinics. The experiment was developed in a fashion that allows various instrumental configurations ranging from highly confocal setups to fibre-optic based systems with different excitation wavelengths. We illustrate the spectral variations caused by the instrumental configurations from the perspectives of peak shifts, intensity variations, peak widths, and noise levels. We conclude this contribution with recommendations that may help to improve the inter-laboratory studies.",

author = "Shuxia Guo and Claudia Beleites and Ute Neugebauer and Sara Abalde-Cela and Afseth, {Nils Kristian} and Fatima Alsamad and Suresh Anand and Cuauhtemoc Araujo-Andrade and Sonja A{\v s}krabi{\'c} and Ertug Avci and Monica Baia and Malgorzata Baranska and Enrico Baria and {Batista De Carvalho}, {Luis A.E.} and {De Bettignies}, Philippe and Alois Bonifacio and Franck Bonnier and Brauchle, {Eva Maria} and Byrne, {Hugh J.} and Igor Chourpa and Riccardo Cicchi and Frederic Cuisinier and Mustafa Culha and Marcel Dahms and Catalina David and Ludovic Duponchel and Shiyamala Duraipandian and El-Mashtoly, {Samir F.} and Ellis, {David I.} and Gauthier Eppe and Guillaume Falgayrac and Ozren Gamulin and Benjamin Gardner and Peter Gardner and Klaus Gerwert and Giamarellos-Bourboulis, {Evangelos J.} and Sveinbjorn Gizurarson and Marcin Gnyba and Royston Goodacre and Patrick Grysan and Orlando Guntinas-Lichius and Helga Helgadottir and Gro{\v s}ev, {Vlasta Moha{\v c}ek} and Catherine Kendall and Roman Kiselev and Micha K{\"o}lbach and Christoph Krafft and Sivashankar Krishnamoorthy and Patrick Kubryck and Bernhard Lendl and Pablo Loza-Alvarez and Lyng, {Fiona M.} and Susanne Machill and Cedric Malherbe and Monica Marro and Marques, {Maria Paula M.} and Ewelina Matuszyk and Morasso, {Carlo Francesco} and Myriam Moreau and Howbeer Muhamadali and Valentina Mussi and Ioan Notingher and Pacia, {Marta Z.} and Pavone, {Francesco S.} and Guillaume Penel and Dennis Petersen and Olivier Piot and Rau, {Julietta V.} and Marc Richter and Rybarczyk, {Maria Krystyna} and Hamideh Salehi and Katja Schenke-Layland and Sebastian Schl{\"u}cker and Markus Schosserer and Karin Sch{\"u}tze and Valter Sergo and Faris Sinjab and Janusz Smulko and Sockalingum, {Ganesh D.} and Clara Stiebing and Nick Stone and Val{\'e}rie Untereiner and Renzo Vanna and Karin Wieland and J{\"u}rgen Popp and Thomas Bocklitz",

note = "Publisher Copyright: {\textcopyright} 2020 American Chemical Society.",

year = "2020",

month = dec,

day = "15",

doi = "10.1021/acs.analchem.0c02696",

language = "English (US)",

volume = "92",

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TY - JOUR

T1 - Comparability of Raman Spectroscopic Configurations

T2 - A Large Scale Cross-Laboratory Study

AU - Guo, Shuxia

AU - Beleites, Claudia

AU - Neugebauer, Ute

AU - Abalde-Cela, Sara

AU - Afseth, Nils Kristian

AU - Alsamad, Fatima

AU - Anand, Suresh

AU - Araujo-Andrade, Cuauhtemoc

AU - Aškrabić, Sonja

AU - Avci, Ertug

AU - Baia, Monica

AU - Baranska, Malgorzata

AU - Baria, Enrico

AU - Batista De Carvalho, Luis A.E.

AU - De Bettignies, Philippe

AU - Bonifacio, Alois

AU - Bonnier, Franck

AU - Brauchle, Eva Maria

AU - Byrne, Hugh J.

AU - Chourpa, Igor

AU - Cicchi, Riccardo

AU - Cuisinier, Frederic

AU - Culha, Mustafa

AU - Dahms, Marcel

AU - David, Catalina

AU - Duponchel, Ludovic

AU - Duraipandian, Shiyamala

AU - El-Mashtoly, Samir F.

AU - Ellis, David I.

AU - Eppe, Gauthier

AU - Falgayrac, Guillaume

AU - Gamulin, Ozren

AU - Gardner, Benjamin

AU - Gardner, Peter

AU - Gerwert, Klaus

AU - Giamarellos-Bourboulis, Evangelos J.

AU - Gizurarson, Sveinbjorn

AU - Gnyba, Marcin

AU - Goodacre, Royston

AU - Grysan, Patrick

AU - Guntinas-Lichius, Orlando

AU - Helgadottir, Helga

AU - Grošev, Vlasta Mohaček

AU - Kendall, Catherine

AU - Kiselev, Roman

AU - Kölbach, Micha

AU - Krafft, Christoph

AU - Krishnamoorthy, Sivashankar

AU - Kubryck, Patrick

AU - Lendl, Bernhard

AU - Loza-Alvarez, Pablo

AU - Lyng, Fiona M.

AU - Machill, Susanne

AU - Malherbe, Cedric

AU - Marro, Monica

AU - Marques, Maria Paula M.

AU - Matuszyk, Ewelina

AU - Morasso, Carlo Francesco

AU - Moreau, Myriam

AU - Muhamadali, Howbeer

AU - Mussi, Valentina

AU - Notingher, Ioan

AU - Pacia, Marta Z.

AU - Pavone, Francesco S.

AU - Penel, Guillaume

AU - Petersen, Dennis

AU - Piot, Olivier

AU - Rau, Julietta V.

AU - Richter, Marc

AU - Rybarczyk, Maria Krystyna

AU - Salehi, Hamideh

AU - Schenke-Layland, Katja

AU - Schlücker, Sebastian

AU - Schosserer, Markus

AU - Schütze, Karin

AU - Sergo, Valter

AU - Sinjab, Faris

AU - Smulko, Janusz

AU - Sockalingum, Ganesh D.

AU - Stiebing, Clara

AU - Stone, Nick

AU - Untereiner, Valérie

AU - Vanna, Renzo

AU - Wieland, Karin

AU - Popp, Jürgen

AU - Bocklitz, Thomas

PY - 2020/12/15

Y1 - 2020/12/15

N2 - The variable configuration of Raman spectroscopic platforms is one of the major obstacles in establishing Raman spectroscopy as a valuable physicochemical method within real-world scenarios such as clinical diagnostics. For such real world applications like diagnostic classification, the models should ideally be usable to predict data from different setups. Whether it is done by training a rugged model with data from many setups or by a primary-replica strategy where models are developed on a 'primary' setup and the test data are generated on 'replicate' setups, this is only possible if the Raman spectra from different setups are consistent, reproducible, and comparable. However, Raman spectra can be highly sensitive to the measurement conditions, and they change from setup to setup even if the same samples are measured. Although increasingly recognized as an issue, the dependence of the Raman spectra on the instrumental configuration is far from being fully understood and great effort is needed to address the resulting spectral variations and to correct for them. To make the severity of the situation clear, we present a round robin experiment investigating the comparability of 35 Raman spectroscopic devices with different configurations in 15 institutes within seven European countries from the COST (European Cooperation in Science and Technology) action Raman4clinics. The experiment was developed in a fashion that allows various instrumental configurations ranging from highly confocal setups to fibre-optic based systems with different excitation wavelengths. We illustrate the spectral variations caused by the instrumental configurations from the perspectives of peak shifts, intensity variations, peak widths, and noise levels. We conclude this contribution with recommendations that may help to improve the inter-laboratory studies.

AB - The variable configuration of Raman spectroscopic platforms is one of the major obstacles in establishing Raman spectroscopy as a valuable physicochemical method within real-world scenarios such as clinical diagnostics. For such real world applications like diagnostic classification, the models should ideally be usable to predict data from different setups. Whether it is done by training a rugged model with data from many setups or by a primary-replica strategy where models are developed on a 'primary' setup and the test data are generated on 'replicate' setups, this is only possible if the Raman spectra from different setups are consistent, reproducible, and comparable. However, Raman spectra can be highly sensitive to the measurement conditions, and they change from setup to setup even if the same samples are measured. Although increasingly recognized as an issue, the dependence of the Raman spectra on the instrumental configuration is far from being fully understood and great effort is needed to address the resulting spectral variations and to correct for them. To make the severity of the situation clear, we present a round robin experiment investigating the comparability of 35 Raman spectroscopic devices with different configurations in 15 institutes within seven European countries from the COST (European Cooperation in Science and Technology) action Raman4clinics. The experiment was developed in a fashion that allows various instrumental configurations ranging from highly confocal setups to fibre-optic based systems with different excitation wavelengths. We illustrate the spectral variations caused by the instrumental configurations from the perspectives of peak shifts, intensity variations, peak widths, and noise levels. We conclude this contribution with recommendations that may help to improve the inter-laboratory studies.

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JO - Analytical Chemistry

JF - Analytical Chemistry

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ER -

Comparability of Raman Spectroscopic Configurations: A Large Scale Cross-Laboratory Study

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