TY - JOUR
T1 - Multilaboratory Collaborative Study of a Nontarget Data Acquisition for Target Analysis (nDATA) Workflow Using Liquid Chromatography-High-Resolution Accurate Mass Spectrometry for Pesticide Screening in Fruits and Vegetables
AU - Wong, Jon W.
AU - Wang, Jian
AU - Chang, James S.
AU - Chow, Willis
AU - Carlson, Roland
AU - Rajski, Łukasz
AU - Fernández-Alba, Amadeo R.
AU - Self, Randy
AU - Cooke, William K.
AU - Lock, Christopher M.
AU - Mercer, Gregory E.
AU - Mastovska, Katerina
AU - Schmitz, John
AU - Vaclavik, Lukas
AU - Li, Lingyun
AU - Panawennage, Deepika
AU - Pang, Guo Fang
AU - Zhou, Heng
AU - Miao, Shui
AU - Ho, Clare
AU - Lam, Tony Chong Ho
AU - To, Yim Bun Sze
AU - Zomer, Paul
AU - Hung, Yu Ching
AU - Lin, Shu Wei
AU - Liao, Chia Ding
AU - Culberson, Danny
AU - Taylor, Tameka
AU - Wu, Yuansheng
AU - Yu, Dingyi
AU - Lim, Poh Leong
AU - Wu, Qiong
AU - Schirlé-Keller, Jean Paul X.
AU - Williams, Sheldon M.
AU - Johnson, Yoko S.
AU - Nason, Sara L.
AU - Ammirata, Michael
AU - Eitzer, Brian D.
AU - Willis, Michelle
AU - Wyatt, Shane
AU - Kwon, Soyoung
AU - Udawatte, Nayane
AU - Priyasantha, Kandalama
AU - Wan, Ping
AU - Filigenzi, Michael S.
AU - Bakota, Erica L.
AU - Sumarah, Mark W.
AU - Renaud, Justin B.
AU - Parinet, Julien
AU - Biré, Ronel
AU - Hort, Vincent
AU - Prakash, Shristi
AU - Conway, Michael
AU - Pyke, James S.
AU - Yang, Dan Hui Dorothy
AU - Jia, Wei
AU - Zhang, Kai
AU - Hayward, Douglas G.
PY - 2021/10/28
Y1 - 2021/10/28
N2 - Nontarget data acquisition for target analysis (nDATA) workflows using liquid chromatography-high-resolution accurate mass (LC-HRAM) spectrometry, spectral screening software, and a compound database have generated interest because of their potential for screening of pesticides in foods. However, these procedures and particularly the instrument processing software need to be thoroughly evaluated before implementation in routine analysis. In this work, 25 laboratories participated in a collaborative study to evaluate an nDATA workflow on high moisture produce (apple, banana, broccoli, carrot, grape, lettuce, orange, potato, strawberry, and tomato). Samples were extracted in each laboratory by quick, easy, cheap, effective, rugged, and safe (QuEChERS), and data were acquired by ultrahigh-performance liquid chromatography (UHPLC) coupled to a high-resolution quadrupole Orbitrap (QOrbitrap) or quadrupole time-of-flight (QTOF) mass spectrometer operating in full-scan mass spectrometry (MS) data-independent tandem mass spectrometry (LC-FS MS/DIA MS/MS) acquisition mode. The nDATA workflow was evaluated using a restricted compound database with 51 pesticides and vendor processing software. Pesticide identifications were determined by retention time (tR, ±0.5 min relative to the reference retention times used in the compound database) and mass errors (?M) of the precursor (RTP, ?M ≤ ±5 ppm) and product ions (RTPI, ?M ≤ ±10 ppm). The elution profiles of all 51 pesticides were within ±0.5 min among 24 of the participating laboratories. Successful screening was determined by false positive and false negative rates of <5% in unfortified (pesticide-free) and fortified (10 and 100 μg/kg) produce matrices. Pesticide responses were dependent on the pesticide, matrix, and instrument. The false negative rates were 0.7 and 0.1% at 10 and 100 μg/kg, respectively, and the false positive rate was 1.1% from results of the participating LC-HRAM platforms. Further evaluation was achieved by providing produce samples spiked with pesticides at concentrations blinded to the laboratories. Twenty-two of the 25 laboratories were successful in identifying all fortified pesticides (0-7 pesticides ranging from 5 to 50 μg/kg) for each produce sample (99.7% detection rate). These studies provide convincing evidence that the nDATA comprehensive approach broadens the screening capabilities of pesticide analyses and provide a platform with the potential to be easily extended to a larger number of other chemical residues and contaminants in foods.
AB - Nontarget data acquisition for target analysis (nDATA) workflows using liquid chromatography-high-resolution accurate mass (LC-HRAM) spectrometry, spectral screening software, and a compound database have generated interest because of their potential for screening of pesticides in foods. However, these procedures and particularly the instrument processing software need to be thoroughly evaluated before implementation in routine analysis. In this work, 25 laboratories participated in a collaborative study to evaluate an nDATA workflow on high moisture produce (apple, banana, broccoli, carrot, grape, lettuce, orange, potato, strawberry, and tomato). Samples were extracted in each laboratory by quick, easy, cheap, effective, rugged, and safe (QuEChERS), and data were acquired by ultrahigh-performance liquid chromatography (UHPLC) coupled to a high-resolution quadrupole Orbitrap (QOrbitrap) or quadrupole time-of-flight (QTOF) mass spectrometer operating in full-scan mass spectrometry (MS) data-independent tandem mass spectrometry (LC-FS MS/DIA MS/MS) acquisition mode. The nDATA workflow was evaluated using a restricted compound database with 51 pesticides and vendor processing software. Pesticide identifications were determined by retention time (tR, ±0.5 min relative to the reference retention times used in the compound database) and mass errors (?M) of the precursor (RTP, ?M ≤ ±5 ppm) and product ions (RTPI, ?M ≤ ±10 ppm). The elution profiles of all 51 pesticides were within ±0.5 min among 24 of the participating laboratories. Successful screening was determined by false positive and false negative rates of <5% in unfortified (pesticide-free) and fortified (10 and 100 μg/kg) produce matrices. Pesticide responses were dependent on the pesticide, matrix, and instrument. The false negative rates were 0.7 and 0.1% at 10 and 100 μg/kg, respectively, and the false positive rate was 1.1% from results of the participating LC-HRAM platforms. Further evaluation was achieved by providing produce samples spiked with pesticides at concentrations blinded to the laboratories. Twenty-two of the 25 laboratories were successful in identifying all fortified pesticides (0-7 pesticides ranging from 5 to 50 μg/kg) for each produce sample (99.7% detection rate). These studies provide convincing evidence that the nDATA comprehensive approach broadens the screening capabilities of pesticide analyses and provide a platform with the potential to be easily extended to a larger number of other chemical residues and contaminants in foods.
KW - cheap
KW - data-independent acquisition (DIA)
KW - easy
KW - effective
KW - liquid chromatography-high-resolution accurate mass (LC-HRAM) spectrometry
KW - nontarget data acquisition for target analysis (nDATA)
KW - pesticides
KW - quadrupole Orbitrap (QOrbitrap)
KW - quadrupole time-of-flight (QTOF)
KW - quick
KW - rugged
KW - safe (QuEChERS)
U2 - 10.1021/acs.jafc.1c04437
DO - 10.1021/acs.jafc.1c04437
M3 - Article
AN - SCOPUS:85118933509
SN - 0021-8561
VL - 69
SP - 13200
EP - 13216
JO - Journal of Agricultural and Food Chemistry
JF - Journal of Agricultural and Food Chemistry
IS - 44
ER -