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近红外光谱法和多元回归法定量分析橄榄油中的酚类化合物:品种、羟基酪醇添加量及油炸的影响

Quantification of Phenolic Compounds in Olive Oils by Near-Infrared Spectroscopy and Multiple Regression: Effects of Cultivar, Hydroxytyrosol Supplementation, and Deep-Frying.

作者信息

Mehany Taha, González-Sáiz José M, Pizarro Consuelo

机构信息

Department of Chemistry, University of La Rioja, 26006 Logroño, Spain.

出版信息

Antioxidants (Basel). 2025 May 31;14(6):672. doi: 10.3390/antiox14060672.

DOI:10.3390/antiox14060672
PMID:40563306
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12189869/
Abstract

Near-infrared (NIR) spectroscopy, combined with multivariate calibration techniques such as stepwise decorrelation of variables (SELECT) and ordinary least squares (OLS) regression, was used to develop robust, reduced-spectrum regression models for quantifying key phenolic compound markers in various olive oils. These oils included nine extra virgin olive oil (EVOO) varieties, refined olive oil (ROO) blended with virgin olive oil (VOO) or EVOO, and pomace olive oil, both with and without hydroxytyrosol (HTyr) supplementation. Olive oils were analyzed before and after deep frying. The results show that HTyr ranged from 7.28 mg/kg in Manzanilla (lowest) to 21.43 mg/kg in Royuela (highest). Tyrosol (Tyr) varied from 5.87 mg/kg in Royuela (lowest) to 14.86 mg/kg in Hojiblanca (highest). Similar trends were observed in all phenolic fractions across olive oil cultivars before and after deep-frying. HTyr supplementation significantly increased both HTyr and Tyr levels in non-fried and fried supplemented oils, with HTyr rising from single digits in some controls (around 0 mg/kg) to over 300 mg/kg in most of the supplemented samples. SELECT efficiently reduced redundancy by selecting the most vital wavelengths and thus significantly improved the regression models for key phenolic compounds, including HTyr, Tyr, caffeic acid, decarboxymethyl ligstroside aglycone in dialdehyde form (oleocanthal), decarboxymethyl oleuropein aglycone in dialdehyde form (oleacein), homovanillic acid, pinoresinol, oleuropein aglycone in oxidized aldehyde and hydroxylic form (OAOAH), ligstroside aglycone in oxidized aldehyde and hydroxylic form (LAOAH), and total phenolic content (TPC), achieving correlation coefficients (R) of 0.91-0.98. The SELECT-OLS method generated highly predictive models with minimal complexity, using at most 30 wavelengths out of 700. The number of decorrelated predictors varied, at 12, 14, 15, 30, 30, 21, 30, 30, 30, and 18 for HTyr, Tyr, caffeic acid, oleocanthal, oleacein, homovanillic acid, pinoresinol, OAOAH, LAOAH, and TPC, respectively, demonstrating the adaptability of the SELECT-OLS approach to different spectral patterns. These reliable calibration models enabled online and routine quantification of phenolic compounds in EVOO, VOO, ROO, including both non-fried and fried as well as supplemented and non-supplemented samples. They performed well across eight deep-frying conditions (3-6 h at 170-210 °C). Implementing an NIR instrument with optimized variable selection would simplify spectral analysis and reduce costs. The developed models all demonstrated strong predictive performance, with low leave-one-out mean prediction errors (LOOMPEs) with values of 15.69, 8.47, 3.64, 9.18, 16.71, 3.26, 8.57, 13.56, 56.36, and 82.38 mg/kg for HTyr, Tyr, caffeic acid, oleocanthal, oleacein, homovanillic acid, pinoresinol, OAOAH, LAOAH, and TPC, respectively. These results confirm that NIR spectroscopy combined with SELECT-OLS is a feasible, rapid, non-destructive, and eco-friendly tool for the reliable evaluation and quantification of phenolic content in edible oils.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/a255e292c2cb/antioxidants-14-00672-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/aeb045540eab/antioxidants-14-00672-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/46358f699a71/antioxidants-14-00672-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/69515312d268/antioxidants-14-00672-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/82f21c398ecd/antioxidants-14-00672-g004a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/1da6efb1f871/antioxidants-14-00672-g005a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/a255e292c2cb/antioxidants-14-00672-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/aeb045540eab/antioxidants-14-00672-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/46358f699a71/antioxidants-14-00672-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/69515312d268/antioxidants-14-00672-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/82f21c398ecd/antioxidants-14-00672-g004a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/1da6efb1f871/antioxidants-14-00672-g005a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a94e/12189869/a255e292c2cb/antioxidants-14-00672-g006.jpg
摘要

近红外(NIR)光谱结合多元校准技术,如变量逐步去相关(SELECT)和普通最小二乘法(OLS)回归,用于开发稳健的、简化光谱回归模型,以量化各种橄榄油中的关键酚类化合物标记物。这些油包括九个特级初榨橄榄油(EVOO)品种、与初榨橄榄油(VOO)或特级初榨橄榄油混合的精炼橄榄油(ROO)以及果渣橄榄油,有无添加羟基酪醇(HTyr)。对橄榄油进行油炸前后的分析。结果表明,HTyr含量在曼萨尼拉橄榄油中最低,为7.28毫克/千克,在罗伊埃拉橄榄油中最高,为21.43毫克/千克。酪醇(Tyr)含量在罗伊埃拉橄榄油中最低,为5.87毫克/千克,在霍吉布兰卡橄榄油中最高,为14.86毫克/千克。在油炸前后的所有橄榄油品种的酚类组分中均观察到类似趋势。添加HTyr显著提高了未油炸和油炸添加油中的HTyr和Tyr水平,HTyr在一些对照品(约0毫克/千克)中的含量从个位数升至大多数添加样品中的300毫克/千克以上。SELECT通过选择最重要的波长有效减少了冗余,从而显著改善了关键酚类化合物的回归模型,包括HTyr、Tyr、咖啡酸、二醛形式的脱羧甲基裂环烯醚萜苷元(油橄榄苦素)、二醛形式的脱羧甲基橄榄苦苷苷元(油橄榄素)、高香草酸、松脂醇、氧化醛和羟基形式的橄榄苦苷苷元(OAOAH)、氧化醛和羟基形式的裂环烯醚萜苷元(LAOAH)以及总酚含量(TPC),相关系数(R)达到0.91 - 0.98。SELECT - OLS方法生成了具有高度预测性且复杂度最低的模型,在700个波长中最多使用30个波长。去相关预测变量的数量各不相同,HTyr、Tyr、咖啡酸、油橄榄苦素、油橄榄素、高香草酸、松脂醇、OAOAH、LAOAH和TPC分别为12、14、15、30、30、21、30、30、30和18,证明了SELECT - OLS方法对不同光谱模式的适应性。这些可靠的校准模型能够对特级初榨橄榄油、初榨橄榄油、精炼橄榄油中的酚类化合物进行在线和常规定量,包括未油炸和油炸以及添加和未添加的样品。它们在八种油炸条件(170 - 210°C下3 - 6小时)下表现良好。使用优化变量选择的近红外仪器将简化光谱分析并降低成本。所开发的模型均表现出强大的预测性能,留一法平均预测误差(LOOMPEs)较低,HTyr、Tyr、咖啡酸、油橄榄苦素、油橄榄素、高香草酸、松脂醇、OAOAH、LAOAH和TPC的值分别为15.69、8.47、3.64、9.18、16.71、3.26、8.57、13.56、56.36和82.38毫克/千克。这些结果证实,近红外光谱结合SELECT - OLS是一种可行、快速、无损且环保的工具,可用于可靠评估和定量食用油中的酚类含量。

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