Raman Spectroscopy Coupled with Chemometric Techniques for Authenticity Assessment of Camel Milk Powder.

IF 1.7

Journal of AOAC International Pub Date : 2025-08-13 DOI:10.1093/jaoacint/qsaf075

Omar Ait El Alia, Abdennacer El Mrabet, Soumaya Boukrouh, Morad Kaddouri, Khalid Boutoial, Aimen El Orche

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引用次数: 0

Abstract

Background: Adulteration of camel milk powder with cheaper alternatives such as cow milk powder has become a growing concern, compromising both nutritional quality and consumer trust. Detecting such adulteration is critical for ensuring product authenticity, especially given the rising demand for camel milk in niche health markets.

Objective: This study explores the application of Raman spectroscopy in conjunction with chemometric techniques for the detection and quantification of adulteration in camel milk powder with cow milk powder.

Method: Camel milk powder was adulterated with cow milk powder across a range of concentrations from 0% to 50%. Raman spectra of these mixtures were analyzed using PCA for dimensionality reduction, followed by PLSR modeling with different spectral pretreatments (raw, Savitzky-Golay, gap derivative). Interval PLS (IPLS) in backward mode was applied to enhance variable selection.

Results: PCA captured 99.6% of spectral variance. The raw PLSR model already showed strong predictive power (R2cv = 95.93%). Savitzky-Golay further boosted performance (R2test = 99.47%), while the gap derivative achieved near-perfect prediction (R2test = 99.94%, RMSEtest = 1.10). IPLS modeling significantly improved robustness, yielding high accuracy (R2test = 98%) with fewer variables.

Conclusion: The findings indicate that the integration of Raman spectroscopy with PCA, PLSR, and IPLS constitutes a robust, precise, and reliable approach for the detection of adulteration in camel milk powder.

Highlights: The application of Raman spectroscopy coupled with chemometric modeling proves to be an efficient and robust analytical tool for quality control in the dairy industry, enabling the accurate detection of adulteration and ensuring the authenticity and safety of camel milk powder.

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拉曼光谱耦合化学计量技术评价驼鹿奶粉的真实性。

背景：将骆驼奶粉掺入较便宜的替代品（如牛奶粉）已成为人们日益关注的问题，损害了营养质量和消费者的信任。检测这种掺假对确保产品的真实性至关重要，特别是考虑到利基保健市场对骆驼奶的需求不断上升。目的：探讨拉曼光谱结合化学计量技术在骆驼奶粉与牛奶粉掺假检测中的应用。方法：在骆驼奶粉中掺入浓度为0% ~ 50%的牛奶粉。利用PCA降维分析这些混合物的拉曼光谱，然后采用不同的光谱预处理（raw、Savitzky-Golay、间隙导数）进行PLSR建模。在逆向模式下应用区间PLS （IPLS）增强变量选择。结果：PCA捕获了99.6%的光谱方差。原始PLSR模型已经显示出较强的预测能力（R2cv = 95.93%）。Savitzky-Golay进一步提高了性能（R2test = 99.47%），而差距导数实现了近乎完美的预测（R2test = 99.94%, RMSEtest = 1.10）。IPLS建模显著提高了鲁棒性，在变量较少的情况下产生了较高的准确性（R2test = 98%）。结论：拉曼光谱与PCA、PLSR和IPLS相结合，是一种可靠、准确、可靠的骆驼奶粉掺假检测方法。重点：拉曼光谱与化学计量学建模相结合的应用被证明是乳制品行业质量控制的有效和强大的分析工具，能够准确检测掺假，确保骆驼奶粉的真实性和安全性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of AOAC International

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