Choline in Infant Formula and Adult Nutritionals, a Single Laboratory Validation
Applications | 2015 | Thermo Fisher ScientificInstrumentation
Choline is an essential water soluble nutrient with critical roles in methyl metabolism transmembrane signaling and brain development Regulatory bodies recommend specific adequate intake levels for infants and adults making accurate quantification in fortified products vital for quality control compliance and consumer safety
This work presents a single laboratory validation of an ion chromatography method for total choline analysis in infant formula powdered and ready to feed as well as adult nutritional products The goal was to improve upon existing enzymatic colorimetric protocols by increasing sample throughput enhancing sensitivity and broadening matrix applicability
Sample preparation employs microwave assisted acid hydrolysis to release bound choline from diverse matrices reducing digestion time ninefold compared to conventional water bath procedures Neutralization is achieved with a cation exchange cartridge prior to analysis
Ultrahigh purity methanesulfonic acid eluent is generated in situ by an electrolytic eluent generator feeding a 2×250 mm IonPac CS19 analytical column with 2×50 mm guard column Separation is followed by suppressed conductivity detection on an ICS 5000 system with autosampler and self regenerating suppressor operating in recycle mode
Key instrumentation
The method exhibits linear calibration over 0.6 to 75 mg per liter choline with coefficient of determination exceeding 0.9999 and calibration errors below 5 percent Limit of detection and quantification in finished product are 0.009 and 0.012 mg per 100 g respectively well below the AOAC requirements
Precision studies across 17 matrices yielded intermediate precision below 6.5 percent at low concentrations and below 4.7 percent at high levels Overall reproducibility was under 3 percent Recovery experiments using reference material and spiked placebos demonstrated trueness between 92.8 and 101 percent with relative standard deviations under 4 percent for most products
These results meet or exceed AOAC performance standards and support the method as a reliable alternative to traditional colorimetric assays
Continued integration of automated sample handling and reagent free ion chromatography will further streamline analysis workflows Coupling with mass spectrometry may extend detection to choline metabolites and related compounds Microfluidic and high pressure ion chromatography formats promise faster run times and lower eluent consumption Extension of the approach to other fortified nutrients could consolidate quality control assays in food and pharmaceutical industries
The validated ion chromatography protocol provides a robust precise and accurate method for total choline determination in infant formulas and adult nutritionals Its compliance with AOAC standards combined with reduced preparation time and automated eluent generation makes it a superior option for routine quality control laboratories
Ion chromatography
IndustriesFood & Agriculture
ManufacturerThermo Fisher Scientific
Summary
Significance of the topic
Choline is an essential water soluble nutrient with critical roles in methyl metabolism transmembrane signaling and brain development Regulatory bodies recommend specific adequate intake levels for infants and adults making accurate quantification in fortified products vital for quality control compliance and consumer safety
Objectives and study overview
This work presents a single laboratory validation of an ion chromatography method for total choline analysis in infant formula powdered and ready to feed as well as adult nutritional products The goal was to improve upon existing enzymatic colorimetric protocols by increasing sample throughput enhancing sensitivity and broadening matrix applicability
Methodology and instrumentation
Sample preparation employs microwave assisted acid hydrolysis to release bound choline from diverse matrices reducing digestion time ninefold compared to conventional water bath procedures Neutralization is achieved with a cation exchange cartridge prior to analysis
Ultrahigh purity methanesulfonic acid eluent is generated in situ by an electrolytic eluent generator feeding a 2×250 mm IonPac CS19 analytical column with 2×50 mm guard column Separation is followed by suppressed conductivity detection on an ICS 5000 system with autosampler and self regenerating suppressor operating in recycle mode
Key instrumentation
- Thermo Scientific Dionex ICS 5000 ion chromatography system
- Dionex EGC III MSA eluent generator with CR-CTC II trap column
- Dionex IonPac CG19 guard and CS19 analytical columns
- CEM MARS microwave reactor with Easy Prep vessels
- OnGuard II A sample neutralization cartridges
Main results and discussion
The method exhibits linear calibration over 0.6 to 75 mg per liter choline with coefficient of determination exceeding 0.9999 and calibration errors below 5 percent Limit of detection and quantification in finished product are 0.009 and 0.012 mg per 100 g respectively well below the AOAC requirements
Precision studies across 17 matrices yielded intermediate precision below 6.5 percent at low concentrations and below 4.7 percent at high levels Overall reproducibility was under 3 percent Recovery experiments using reference material and spiked placebos demonstrated trueness between 92.8 and 101 percent with relative standard deviations under 4 percent for most products
These results meet or exceed AOAC performance standards and support the method as a reliable alternative to traditional colorimetric assays
Benefits and practical applications
- Significant reduction in sample preparation time while maintaining quantitative accuracy
- Simplified operation through reagent free eluent generation
- Improved sensitivity and stable retention times via electrolytic methanesulfonic acid delivery
- Simultaneous resolution of choline and common cations for expanded profiling
- Applicability across a wide range of formula and nutritional formats
Future trends and applications
Continued integration of automated sample handling and reagent free ion chromatography will further streamline analysis workflows Coupling with mass spectrometry may extend detection to choline metabolites and related compounds Microfluidic and high pressure ion chromatography formats promise faster run times and lower eluent consumption Extension of the approach to other fortified nutrients could consolidate quality control assays in food and pharmaceutical industries
Conclusion
The validated ion chromatography protocol provides a robust precise and accurate method for total choline determination in infant formulas and adult nutritionals Its compliance with AOAC standards combined with reduced preparation time and automated eluent generation makes it a superior option for routine quality control laboratories
References
- Oates K Chen L De Borba B Rohrer J Mohindra D Choline in infant formula and adult nutritionals by ion chromatography and suppressed conductivity first action method 2012.20 J AOAC Int 2013 96 1400 1406
- Laikhtman M Rohrer JS Determination of choline in infant formula by ion chromatography J AOAC Int 1999 82 1156 1162
- Thermo Scientific Application Update 189 Determination of choline in infant formula and other food samples by ion chromatography 2012
- AOAC SMPR 2012.013 standard method performance requirements for total choline in infant and adult pediatric nutritional formula
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