RIS BibTex APA Vancouver Chicago
TY - JOUR
AU - Dominutti, Pamela
AU - Jaffrezo, Jean-Luc
AU - Marsal, Anouk
AU - Mhadhbi, Takoua
AU - Elazzouzi, Rhabira
AU - Rak, Camille
AU - Cavalli, Fabrizia
AU - Putaud, Jean-Philippe
AU - Bougiatioti, Aikaterini
AU - Mihalopoulos, Nikolaos
AU - Paraskevopoulou, Despina
AU - Mudway, Ian
AU - Nenes, Athanasios
AU - Daellenbach, Kaspar
AU - Banach, Catherine
AU - Campbell, Steven
AU - Cigánková, Hana
AU - Contini, Daniele
AU - Evans, Greg
AU - Georgopoulou, Maria
AU - Ghanem, Manuella
AU - Glencross, Drew
AU - Guascito, Maria
AU - Herrmann, Hartmut
AU - Iram, S.
AU - Jovanović, Maja
AU - Jovašević-Stojanović, Milena
AU - Kalberer, Markus
AU - Kooter, Ingeborg
AU - Paulson, Suzanne
AU - Patel, Anil
AU - Perdrix, Esperanza
AU - Pietrogrande, Maria
AU - Mikuška, Pavel
AU - Sauvain, Jean-Jacques
AU - Seitanidi, Katerina
AU - Shahpoury, Pourya
AU - Souza, Eduardo
AU - Steimer, Sarah
AU - Stevanović, Svetlana
AU - Suarez, Guillaume
AU - Subramanian, P. S. Ganesh
AU - Utinger, Battist
AU - Van Os, Marloes
AU - Verma, Vishal
AU - Wang, Xing
AU - Weber, Rodney
AU - Yang, Yuhan
AU - Querol, Xavier
AU - Hoek, Gerard
AU - Harrison, Roy
AU - Uzu, Gaëlle
PY - 2025
UR - https://vinar.vin.bg.ac.rs/handle/123456789/14291
AB - This paper presents the findings from a collaborative interlaboratory comparison exercise designed to assess oxidative potential (OP) measurements conducted by 20 laboratories worldwide. This study represents an innovative effort as the first exercise specifically aimed at harmonising this type of OP assay, setting a new benchmark in the field. Over the last decade, there has been a noticeable increase in OP studies, with numerous research groups investigating the effects of exposure to air pollution particles through the evaluation of OP levels. However, the absence of standardised methods for OP measurements has resulted in variability in results across different groups, rendering meaningful comparisons challenging. To address this issue, this study engages in an international effort to compare OP measurements using a simplified method (with a dithiothreitol (DTT) assay). Here, we quantify the OP in liquid samples to focus on the protocol measurement itself, while future international OP interlaboratory comparisons (ILCs) should aim to assess the whole chain process, including the sample extraction. We analyse the similarities and discrepancies observed in the results, identifying the critical parameters (such as the instrument used, the use of a simplified protocol, the delivery and analysis time) that could influence OP measurements and provide recommendations for future studies and interlaboratory comparisons even if other crucial aspects, such as sampling PM methods, sample storage, extraction methods and conditions, and the evaluation of other OP assays, still need to be standardised. This collaborative approach enhances the robustness of the OP DTT assay and paves the way for future studies to build on a unified framework. This pioneering work concludes that interlaboratory comparisons provide essential insights into the OP metric and are crucial to move toward the harmonisation of OP measurements. © 2025 Pamela A. Dominutti et al.
T2 - Atmospheric Measurement Techniques
T1 - An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation
VL - 18
IS - 1
SP - 177
EP - 195
DO - 10.5194/amt-18-177-2025
ER -
@article{
author = "Dominutti, Pamela and Jaffrezo, Jean-Luc and Marsal, Anouk and Mhadhbi, Takoua and Elazzouzi, Rhabira and Rak, Camille and Cavalli, Fabrizia and Putaud, Jean-Philippe and Bougiatioti, Aikaterini and Mihalopoulos, Nikolaos and Paraskevopoulou, Despina and Mudway, Ian and Nenes, Athanasios and Daellenbach, Kaspar and Banach, Catherine and Campbell, Steven and Cigánková, Hana and Contini, Daniele and Evans, Greg and Georgopoulou, Maria and Ghanem, Manuella and Glencross, Drew and Guascito, Maria and Herrmann, Hartmut and Iram, S. and Jovanović, Maja and Jovašević-Stojanović, Milena and Kalberer, Markus and Kooter, Ingeborg and Paulson, Suzanne and Patel, Anil and Perdrix, Esperanza and Pietrogrande, Maria and Mikuška, Pavel and Sauvain, Jean-Jacques and Seitanidi, Katerina and Shahpoury, Pourya and Souza, Eduardo and Steimer, Sarah and Stevanović, Svetlana and Suarez, Guillaume and Subramanian, P. S. Ganesh and Utinger, Battist and Van Os, Marloes and Verma, Vishal and Wang, Xing and Weber, Rodney and Yang, Yuhan and Querol, Xavier and Hoek, Gerard and Harrison, Roy and Uzu, Gaëlle",
year = "2025",
abstract = "This paper presents the findings from a collaborative interlaboratory comparison exercise designed to assess oxidative potential (OP) measurements conducted by 20 laboratories worldwide. This study represents an innovative effort as the first exercise specifically aimed at harmonising this type of OP assay, setting a new benchmark in the field. Over the last decade, there has been a noticeable increase in OP studies, with numerous research groups investigating the effects of exposure to air pollution particles through the evaluation of OP levels. However, the absence of standardised methods for OP measurements has resulted in variability in results across different groups, rendering meaningful comparisons challenging. To address this issue, this study engages in an international effort to compare OP measurements using a simplified method (with a dithiothreitol (DTT) assay). Here, we quantify the OP in liquid samples to focus on the protocol measurement itself, while future international OP interlaboratory comparisons (ILCs) should aim to assess the whole chain process, including the sample extraction. We analyse the similarities and discrepancies observed in the results, identifying the critical parameters (such as the instrument used, the use of a simplified protocol, the delivery and analysis time) that could influence OP measurements and provide recommendations for future studies and interlaboratory comparisons even if other crucial aspects, such as sampling PM methods, sample storage, extraction methods and conditions, and the evaluation of other OP assays, still need to be standardised. This collaborative approach enhances the robustness of the OP DTT assay and paves the way for future studies to build on a unified framework. This pioneering work concludes that interlaboratory comparisons provide essential insights into the OP metric and are crucial to move toward the harmonisation of OP measurements. © 2025 Pamela A. Dominutti et al.",
journal = "Atmospheric Measurement Techniques",
title = "An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation",
volume = "18",
number = "1",
pages = "177-195",
doi = "10.5194/amt-18-177-2025"
}
Dominutti, P., Jaffrezo, J., Marsal, A., Mhadhbi, T., Elazzouzi, R., Rak, C., Cavalli, F., Putaud, J., Bougiatioti, A., Mihalopoulos, N., Paraskevopoulou, D., Mudway, I., Nenes, A., Daellenbach, K., Banach, C., Campbell, S., Cigánková, H., Contini, D., Evans, G., Georgopoulou, M., Ghanem, M., Glencross, D., Guascito, M., Herrmann, H., Iram, S., Jovanović, M., Jovašević-Stojanović, M., Kalberer, M., Kooter, I., Paulson, S., Patel, A., Perdrix, E., Pietrogrande, M., Mikuška, P., Sauvain, J., Seitanidi, K., Shahpoury, P., Souza, E., Steimer, S., Stevanović, S., Suarez, G., Subramanian, P. S. G., Utinger, B., Van Os, M., Verma, V., Wang, X., Weber, R., Yang, Y., Querol, X., Hoek, G., Harrison, R.,& Uzu, G.. (2025). An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation. in Atmospheric Measurement Techniques, 18(1), 177-195.
https://doi.org/10.5194/amt-18-177-2025
Dominutti P, Jaffrezo J, Marsal A, Mhadhbi T, Elazzouzi R, Rak C, Cavalli F, Putaud J, Bougiatioti A, Mihalopoulos N, Paraskevopoulou D, Mudway I, Nenes A, Daellenbach K, Banach C, Campbell S, Cigánková H, Contini D, Evans G, Georgopoulou M, Ghanem M, Glencross D, Guascito M, Herrmann H, Iram S, Jovanović M, Jovašević-Stojanović M, Kalberer M, Kooter I, Paulson S, Patel A, Perdrix E, Pietrogrande M, Mikuška P, Sauvain J, Seitanidi K, Shahpoury P, Souza E, Steimer S, Stevanović S, Suarez G, Subramanian PSG, Utinger B, Van Os M, Verma V, Wang X, Weber R, Yang Y, Querol X, Hoek G, Harrison R, Uzu G. An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation. in Atmospheric Measurement Techniques. 2025;18(1):177-195.
doi:10.5194/amt-18-177-2025 .
Dominutti, Pamela, Jaffrezo, Jean-Luc, Marsal, Anouk, Mhadhbi, Takoua, Elazzouzi, Rhabira, Rak, Camille, Cavalli, Fabrizia, Putaud, Jean-Philippe, Bougiatioti, Aikaterini, Mihalopoulos, Nikolaos, Paraskevopoulou, Despina, Mudway, Ian, Nenes, Athanasios, Daellenbach, Kaspar, Banach, Catherine, Campbell, Steven, Cigánková, Hana, Contini, Daniele, Evans, Greg, Georgopoulou, Maria, Ghanem, Manuella, Glencross, Drew, Guascito, Maria, Herrmann, Hartmut, Iram, S., Jovanović, Maja, Jovašević-Stojanović, Milena, Kalberer, Markus, Kooter, Ingeborg, Paulson, Suzanne, Patel, Anil, Perdrix, Esperanza, Pietrogrande, Maria, Mikuška, Pavel, Sauvain, Jean-Jacques, Seitanidi, Katerina, Shahpoury, Pourya, Souza, Eduardo, Steimer, Sarah, Stevanović, Svetlana, Suarez, Guillaume, Subramanian, P. S. Ganesh, Utinger, Battist, Van Os, Marloes, Verma, Vishal, Wang, Xing, Weber, Rodney, Yang, Yuhan, Querol, Xavier, Hoek, Gerard, Harrison, Roy, Uzu, Gaëlle, "An interlaboratory comparison to quantify oxidative potential measurement in aerosol particles: challenges and recommendations for harmonisation" in Atmospheric Measurement Techniques, 18, no. 1 (2025):177-195,
https://doi.org/10.5194/amt-18-177-2025 . .
