Performance assessment in fingerprinting and multi component quantitative NMR analyses

Vito Gallo, Nicola Intini, Piero Mastrorilli, Mario Latronico, Pasquale Scapicchio, Maurizio Triggiani, Vitoantonio Bevilacqua, Paolo Fanizzi, Domenico Acquotti, Cristina Airoldi, Fabio Arnesano, Michael Assfalg, Francesca Benevelli, Davide Bertelli, Laura R. Cagliani, Luca Casadei, Flaminia Cesare Marincola, Giuseppe Colafemmina, Roberto Consonni, Cesare CosentinoSilvia Davalli, Sandra A. De Pascali, Virginia D'Aiuto, Andrea Faccini, Roberto Gobetto, Raffaele Lamanna, Francesca Liguori, Francesco Longobardi, Domenico Mallamace, Pierluigi Mazzei, Ileana Menegazzo, Salvatore Milone, Adele Mucci, Claudia Napoli, Thelma Pertinhez, Antonio Rizzuti, Luca Rocchigiani, Elisabetta Schievano, Fabio Sciubba, Anatoly Sobolev, Leonardo Tenori, Mariacristina Valerio

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Abstract

An interlaboratory comparison (ILC) was organized with the aim to set up quality control indicators suitable for multicomponent quantitative analysis by nuclear magnetic resonance (NMR) spectroscopy. A total of 36 NMR data sets (corresponding to 1260 NMR spectra) were produced by 30 participants using 34 NMR spectrometers. The calibration line method was chosen for the quantification of a five-component model mixture. Results show that quantitative NMR is a robust quantification tool and that 26 out of 36 data sets resulted in statistically equivalent calibration lines for all considered NMR signals. The performance of each laboratory was assessed by means of a new performance index (named Qp-score) which is related to the difference between the experimental and the consensus values of the slope of the calibration lines. Laboratories endowed with a Qp-score falling within the suitable acceptability range are qualified to produce NMR spectra that can be considered statistically equivalent in terms of relative intensities of the signals. In addition, the specific response of nuclei to the experimental excitation/relaxation conditions was addressed by means of the parameter named NR. NR is related to the difference between the theoretical and the consensus slopes of the calibration lines and is specific for each signal produced by a well-defined set of acquisition parameters.
Original languageEnglish
Pages (from-to)6709-6717
JournalAnalytical Chemistry
Volume87
Issue number13
Early online date10 Jun 2015
DOIs
Publication statusPublished - 7 Jul 2015

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