Enhanced Selectivity of Ultraviolet-Visible Absorption Spectroscopy with Trilinear Decomposition on Spectral pH Measurements for the Interference-Free Determination of Rutin and Isorhamnetin in Chinese Herbal Medicine

Ultraviolet-visible absorption spectrometry is used for the determination of many inorganic, organic, and biological species. However, poor selectivity limits its applications for quantitative analysis in complex mixtures. In this work, its mathematical selectivity was explored using trilinear decom...

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Bibliographic Details
Published in:Analytical letters 2021-11, Vol.54 (17), p.2750-2768
Main Authors: Zhou, Ping-Rong, Tang, Zhang-Feng, Wei, Ke-Su, Wan, Ya, Gao, Yu-Meng, Liang, Yan-Mei, Yan, Xiu-Fang, Bin, Jun, Kang, Chao
Format: Article
Language:English
Subjects:
Absorption spectroscopy
Calibration
Chemical separation
Confidence intervals
Decomposition
Flavonoids
Herbal medicine
High performance liquid chromatography
high performance liquid chromatography (HPLC)
Interference
isorhamnetin
Materials selection
Mathematical analysis
rutin
Scientific imaging
second-order calibration
Selectivity
Spectra
Spectrometry
Statistical analysis
Ultraviolet spectroscopy
ultraviolet-visible absorption spectrometry
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Summary:Ultraviolet-visible absorption spectrometry is used for the determination of many inorganic, organic, and biological species. However, poor selectivity limits its applications for quantitative analysis in complex mixtures. In this work, its mathematical selectivity was explored using trilinear decomposition on spectral-pH measurements for the selective determination of two flavonoids in three Chinese herbal medicines. Through introducing a pH mode, second-order spectral pH data were constructed per sample. By using trilinear decomposition on the calibration and prediction samples, the rutin signals were extracted from lonicerae japonicae flos, perillae folium, and perillae fructus samples, respectively. Novel second-order calibration was developed for interference-free determination of rutin in these medicines followed by univariate regression of the decomposed intensity versus concentration. The predicted 95% confidence intervals for the concentration of rutin in these samples were 5.19 ± 0.16, 5.81 ± 0.10, and 7.00 ± 0.36 μg mL −1 , respectively. These results were validated by high performance liquid chromatography (HPLC). Similarly, interference-free determination of isorhamnetin was achieved in these materials. By increasing the selectivity of ultraviolet-visible spectroscopy with trilinear decomposition, the requirements for sample preparation and chemical separation are reduced. The developed spectral pH second-order calibration allows direct analysis of complex samples by ultraviolet-visible absorption spectrometry due to the mathematical selectivity.
ISSN:0003-2719
1532-236X
DOI:10.1080/00032719.2021.1888966