Analysis of Illegal Dyes in Food Matrices using Automated Online Sample Preparation with LC/MS
Applications | 2016 | Thermo Fisher ScientificInstrumentation
Sudan dyes are synthetic azo compounds banned in food due to carcinogenicity and health concerns, yet they have been detected in chili-based sauces, necessitating sensitive and rapid analytical methods for food safety enforcement.
This study aimed to create an automated online sample preparation method coupled with liquid chromatography and high-resolution mass spectrometry to detect and quantify five illegal dyes (Sudan I–IV and Para Red) in various sauce matrices, while reducing manual steps and improving throughput.
Sample preparation involved extraction of homogenized sauce with acetonitrile, vortexing, sonication, centrifugation, and filtration. Online cleanup was performed using a Thermo Scientific Transcend TLX-1 system with TurboFlow XL C8 column, followed by separation on an Accucore Phenyl-Hexyl column and detection using a Thermo Scientific Exactive Orbitrap with heated electrospray ionization in positive mode. The total LC run time was six minutes.
Limits of quantitation ranged from 5 to 20 ng/g (50 ng/g for Para Red in one matrix) with coefficients of variation below 15% at LOQ. Calibration curves exhibited r2 values above 0.99 over 5–1000 ng/g. Precision tests at 100 ng/g across four sauce types showed RSDs below 10%, and recoveries were within 80–120%. Minimal matrix effects were observed, and all analytes eluted within one minute, enabling potential multiplexed analysis of over 30 samples per hour.
The integrated automated method reduces manual labor, solvent use, and analysis time while providing high sensitivity and selectivity, making it suitable for regulatory and quality control laboratories monitoring food safety.
Future work may expand the method to additional illegal dyes, adopt ultrahigh-performance columns for faster separations, and implement multiplexed workflows for large-scale screening in diverse food matrices.
The developed automated LC–MS approach using TurboFlow online extraction and Orbitrap detection delivers a rapid, robust, and high-throughput solution for the determination of banned Sudan dyes in complex food samples.
1 U.S. Code of Federal Regulations Title 21 Part 73 Subpart A
2 Commission Decision 2003/460/EC on emergency measures regarding hot chili products
3 Commission Decision 2004/92/EC on chili products
4 Rebane R., Leito I., Yurchenko S., Herodes K. Review of Analytical Techniques for Determination of Sudan I–IV Dyes in Food Matrices. J Chromatogr A. 2010;1217:2747–2757
5 Gilbert J. Analytical Challenges in Food Safety: Advances in Instrumental Methods for Food Analysis. Go-Global Seminar, Bangkok, 2007
Sample Preparation, LC/HRMS, LC/MS, LC/MS/MS, LC/Orbitrap
IndustriesFood & Agriculture
ManufacturerThermo Fisher Scientific
Summary
Importance of the Topic
Sudan dyes are synthetic azo compounds banned in food due to carcinogenicity and health concerns, yet they have been detected in chili-based sauces, necessitating sensitive and rapid analytical methods for food safety enforcement.
Objectives and Study Overview
This study aimed to create an automated online sample preparation method coupled with liquid chromatography and high-resolution mass spectrometry to detect and quantify five illegal dyes (Sudan I–IV and Para Red) in various sauce matrices, while reducing manual steps and improving throughput.
Methodology and Instrumentation
Sample preparation involved extraction of homogenized sauce with acetonitrile, vortexing, sonication, centrifugation, and filtration. Online cleanup was performed using a Thermo Scientific Transcend TLX-1 system with TurboFlow XL C8 column, followed by separation on an Accucore Phenyl-Hexyl column and detection using a Thermo Scientific Exactive Orbitrap with heated electrospray ionization in positive mode. The total LC run time was six minutes.
Main Results and Discussion
Limits of quantitation ranged from 5 to 20 ng/g (50 ng/g for Para Red in one matrix) with coefficients of variation below 15% at LOQ. Calibration curves exhibited r2 values above 0.99 over 5–1000 ng/g. Precision tests at 100 ng/g across four sauce types showed RSDs below 10%, and recoveries were within 80–120%. Minimal matrix effects were observed, and all analytes eluted within one minute, enabling potential multiplexed analysis of over 30 samples per hour.
Benefits and Practical Applications
The integrated automated method reduces manual labor, solvent use, and analysis time while providing high sensitivity and selectivity, making it suitable for regulatory and quality control laboratories monitoring food safety.
Future Trends and Applications
Future work may expand the method to additional illegal dyes, adopt ultrahigh-performance columns for faster separations, and implement multiplexed workflows for large-scale screening in diverse food matrices.
Conclusion
The developed automated LC–MS approach using TurboFlow online extraction and Orbitrap detection delivers a rapid, robust, and high-throughput solution for the determination of banned Sudan dyes in complex food samples.
References
1 U.S. Code of Federal Regulations Title 21 Part 73 Subpart A
2 Commission Decision 2003/460/EC on emergency measures regarding hot chili products
3 Commission Decision 2004/92/EC on chili products
4 Rebane R., Leito I., Yurchenko S., Herodes K. Review of Analytical Techniques for Determination of Sudan I–IV Dyes in Food Matrices. J Chromatogr A. 2010;1217:2747–2757
5 Gilbert J. Analytical Challenges in Food Safety: Advances in Instrumental Methods for Food Analysis. Go-Global Seminar, Bangkok, 2007
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
Similar PDF
Rapid Analysis of Sudan and Other Prohibited Dyes in Chili Powder Using the ACQUITY UPLC H-Class System with Xevo TQD 
2014|Waters|Applications
Rapid Analysis of Sudan and Other Prohibited Dyes in Chili Powder Using the ACQUITY UPLC H-Class System with Xevo TQD Dimple Shah,1 Evelyn Goh,2 Jennifer Burgess1 1 Waters Corporation, Milford, MA, USA 2 Waters Pacific, Singapore A P P L…
Key words
sudan, sudandyes, dyestqd, tqdchili, chilixevo, xevoprohibited, prohibitedrhodamine, rhodamineuplc, uplcpowder, powderacquity, acquityred, redclass, classpara, parasample, sampleyellow
LC-MS Method Using Cloud Point Extraction for the Determination of Permitted and Banned Azo Colors in Liquid, Semi-liquid and Solid Food Matrices
2011|Thermo Fisher Scientific|Applications
Method: 52212 LC-MS Method Using Cloud Point Extraction for the Determination of Permitted and Banned Azo Colors in Liquid, Semi-liquid and Solid Food Matrices Ebru Ates, Klaus Mittendorf, Thermo Fisher Scientific, Dreieich, Germany 1. Schematic of Method Key Words Sample…
Key words
sudan, sudansauce, saucechili, chilicolors, colorssunset, sunsetyellow, yellowred, redmetanil, metanilallura, alluraerythrosine, erythrosinealdrich, aldrichrhodamine, rhodaminesigma, sigmamatrix, matrixwine
LC-MS Determination of Sudan Dyes in Chili Oleoresin Using the CORTECS C18, 2.7 μm Column
2014|Waters|Applications
LC-MS Determination of Sudan Dyes in Chili Oleoresin Using the CORTECS C18, 2.7 μm Column Michael S. Young and Kim Van Tran Waters Corporation, Milford, MA, USA A P P L I C AT I O N B E N…
Key words
sudan, sudanred, redchili, chilioleoresin, oleoresinpara, parayellow, yelloworange, orangeiii, iiiblack, blacktqd, tqdcompatible, compatiblemethyl, methylxevo, xevorhodamine, rhodaminepeppers
Quantitative analysis of illegal dyes in eggs using LC/MS/MS
2015|Shimadzu|Posters
PO-CON1549E Quantitative analysis of illegal dyes in eggs using LC/MS/MS ASMS 2015 TP 334 Rashi Kochhar, Shailendra Rane, Shailesh Damale, Deepti Bhandarkar, Shruti Raju, Ajit Datar, Pratap Rasam and Jitendra Kelkar Shimadzu Analytical (India) Pvt. Ltd., 1 A/B Rushabh Chambers,…
Key words
sudan, sudandyes, dyespara, paraillegal, illegaleggs, eggsred, redanalysis, analysisquantitative, quantitativeegg, eggiii, iiiyolk, yolkmin, minusing, usingsimultaneous, simultaneousmatrix
