Quality control of non-nutritive sweeteners with NIR spectroscopy
Applications | 2023 | MetrohmInstrumentation
The demand for non-nutritive sweeteners has grown substantially in food and beverage sectors over the last decade. Ensuring accurate quantification of additives such as sucralose and Stevia is critical for maintaining product safety, meeting regulatory requirements, and upholding quality standards.
This study aimed to establish a rapid, reliable near-infrared (NIR) spectroscopy method for the simultaneous determination of sucralose and Stevia in sucrose matrices. Sample blends containing 0.5–4.5% of each sweetener in sucrose were prepared to build and validate predictive models.
Vis-NIR spectra were recorded in reflection mode using a DS2500 Solid Analyzer equipped with a DS2500 Iris accessory and 15 mm disposable vials. All data acquisition and multivariate model development were conducted with Vision Air Complete software.
Predictive models showed excellent agreement between NIR predictions and HPLC reference measurements. Key performance metrics:
NIR spectroscopy offers a fast, cost-effective, and reagent-free alternative to traditional HPLC methods, which involve longer sample preparation and run times. The DS2500 Analyzer is suitable for both laboratory and production environments, enabling real-time quality control of sweetener concentrations.
The adoption of NIR spectroscopy in automated quality control workflows is expected to increase, driven by advances in chemometric algorithms and instrument portability. Inline and handheld NIR devices may further streamline monitoring of food additives, contaminants, and process variables in real time.
The application note demonstrates that NIR spectroscopy with the DS2500 Solid Analyzer can accurately quantify sucralose and Stevia in sucrose blends. This method delivers rapid, reliable results, supporting efficient quality control and regulatory compliance.
NIR Spectroscopy
IndustriesFood & Agriculture
ManufacturerMetrohm
Summary
Quality Control of Non-Nutritive Sweeteners with NIR Spectroscopy
Significance of the Topic
The demand for non-nutritive sweeteners has grown substantially in food and beverage sectors over the last decade. Ensuring accurate quantification of additives such as sucralose and Stevia is critical for maintaining product safety, meeting regulatory requirements, and upholding quality standards.
Objectives and Study Overview
This study aimed to establish a rapid, reliable near-infrared (NIR) spectroscopy method for the simultaneous determination of sucralose and Stevia in sucrose matrices. Sample blends containing 0.5–4.5% of each sweetener in sucrose were prepared to build and validate predictive models.
Methodology and Instrumentation
Vis-NIR spectra were recorded in reflection mode using a DS2500 Solid Analyzer equipped with a DS2500 Iris accessory and 15 mm disposable vials. All data acquisition and multivariate model development were conducted with Vision Air Complete software.
Main Results and Discussion
Predictive models showed excellent agreement between NIR predictions and HPLC reference measurements. Key performance metrics:
- Sucralose: R2 = 0.9854; Standard Error of Calibration (SEC) = 0.1898%; Standard Error of Cross-Validation (SECV) = 0.1997%
- Stevia: R2 = 0.9885; SEC = 0.1500%; SECV = 0.1997%
Benefits and Practical Applications
NIR spectroscopy offers a fast, cost-effective, and reagent-free alternative to traditional HPLC methods, which involve longer sample preparation and run times. The DS2500 Analyzer is suitable for both laboratory and production environments, enabling real-time quality control of sweetener concentrations.
Future Trends and Potential Applications
The adoption of NIR spectroscopy in automated quality control workflows is expected to increase, driven by advances in chemometric algorithms and instrument portability. Inline and handheld NIR devices may further streamline monitoring of food additives, contaminants, and process variables in real time.
Conclusion
The application note demonstrates that NIR spectroscopy with the DS2500 Solid Analyzer can accurately quantify sucralose and Stevia in sucrose blends. This method delivers rapid, reliable results, supporting efficient quality control and regulatory compliance.
Reference
- Internal reference: AW NIR AE10-0002-072021
Content was automatically generated from an orignal PDF document using AI and may contain inaccuracies.
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