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Literature DB >> 28927936

Rapid quantitative detection of glucose content in glucose injection by reaction headspace gas chromatography.

Wei-Qi Xie¹, Yi-Xian Gong², Kong-Xian Yu³.

Abstract

This work investigates an automated technique for rapid detecting the glucose content in glucose injection by reaction headspace gas chromatography (HS-GC). This method is based on the oxidation reaction of glucose in glucose injection with potassium dichromate. The carbon dioxide (CO2) formed from the oxidation reaction can be quantitatively detected by GC. The results show that the relative standard deviation (RSD) of the present method was within 2.91%, and the measured glucose contents in glucose injection closely match those quantified by the reference method (relative differences <6.45%). The new HS-GC technique is rapid, practical and can be used to the batch detection of the glucose content in glucose injection related applications.

Entities: Chemical Disease

Keywords: Carbon dioxide; Glucose content; Glucose injection; Headspace gas chromatography

Mesh：

Substances：
Carbon Dioxide
Glucose

Year: 2017 PMID： 28927936 DOI： 10.1016/j.chroma.2017.09.018

Source DB: PubMed Journal: J Chromatogr A ISSN： 0021-9673 Impact factor: 4.759

Keyword Cloud
Cited

6 in total

1. A molecularly imprinted electrochemical biosensor based on hierarchical Ti₂Nb₁₀O₂₉ (TNO) for glucose detection.

Authors: Ceren Karaman; Onur Karaman; Necip Atar; Mehmet Lütfi Yola
Journal: Mikrochim Acta Date: 2021-12-11 Impact factor: 5.833

2. Electrochemical Sensing of Glucose Using Glucose Oxidase/PEDOT:4-Sulfocalix [4]arene/MXene Composite Modified Electrode.

Authors: Preethika Murugan; Jayshree Annamalai; Raji Atchudan; Mani Govindasamy; Deepak Nallaswamy; Dhanraj Ganapathy; Anatoly Reshetilov; Ashok K Sundramoorthy
Journal: Micromachines (Basel) Date: 2022-02-16 Impact factor: 2.891

Rapid quantitative detection of glucose content in glucose injection by reaction headspace gas chromatography.

1. A molecularly imprinted electrochemical biosensor based on hierarchical Ti₂Nb₁₀O₂₉ (TNO) for glucose detection.

2. Electrochemical Sensing of Glucose Using Glucose Oxidase/PEDOT:4-Sulfocalix [4]arene/MXene Composite Modified Electrode.

Review 3. Smartphone-based mobile biosensors for the point-of-care testing of human metabolites.

4. Cu-Based Conductive MOF Grown in situ on Cu Foam as a Highly Selective and Stable Non-Enzymatic Glucose Sensor.

5. Self-template formation of porous Co₃O₄ hollow nanoprisms for non-enzymatic glucose sensing in human serum.

6. Enzyme Encapsulation by Facile Self-Assembly Silica-Modified Magnetic Nanoparticles for Glucose Monitoring in Urine.

Rapid quantitative detection of glucose content in glucose injection by reaction headspace gas chromatography.

1. A molecularly imprinted electrochemical biosensor based on hierarchical Ti2Nb10O29 (TNO) for glucose detection.

2. Electrochemical Sensing of Glucose Using Glucose Oxidase/PEDOT:4-Sulfocalix [4]arene/MXene Composite Modified Electrode.

Review 3. Smartphone-based mobile biosensors for the point-of-care testing of human metabolites.

4. Cu-Based Conductive MOF Grown in situ on Cu Foam as a Highly Selective and Stable Non-Enzymatic Glucose Sensor.

5. Self-template formation of porous Co3O4 hollow nanoprisms for non-enzymatic glucose sensing in human serum.

6. Enzyme Encapsulation by Facile Self-Assembly Silica-Modified Magnetic Nanoparticles for Glucose Monitoring in Urine.

1. A molecularly imprinted electrochemical biosensor based on hierarchical Ti₂Nb₁₀O₂₉ (TNO) for glucose detection.

5. Self-template formation of porous Co₃O₄ hollow nanoprisms for non-enzymatic glucose sensing in human serum.