A new approach to ion exchange chromatography with conductivity detection for adulterants investigation in dietary supplements

A new approach to ion exchange chromatography with conductivity detection for adulterants investigation in dietary supplements

The extent of adulteration of dietary supplements has significantly increased in recent years. This situation worries health authorities and requires auxiliary analytical tools for the investigation of illegal substances purposely added. Ion exchange chromatography with conductivity detection is a c...

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Bibliographic Details
Published in:Biomedical chromatography Vol. 33; no. 11; pp. e4669 - n/a
Main Authors: Dal Molin, Thaís Ramos, Silveira, Géssica Domingos, Leal, Gabriela Camera, Müller, Larissa Sabo, Muratt, Diana Tomazi, Carvalho, Leandro Machado, Viana, Carine
Format: Journal Article
Language:English
Published: England 01-11-2019
Subjects:
adulterants
Chromatography, Ion Exchange - methods
conductivity detection
dietary supplements
Dietary Supplements - analysis
Drug Contamination
Electric Conductivity
ion exchange chromatography
Limit of Detection
Linear Models
Reproducibility of Results
dietary supplements
ion exchange chromatography
adulterants
conductivity detection
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Summary:The extent of adulteration of dietary supplements has significantly increased in recent years. This situation worries health authorities and requires auxiliary analytical tools for the investigation of illegal substances purposely added. Ion exchange chromatography with conductivity detection is a consolidated analytical technique for the determination of inorganic compounds in various matrices. This technique has been applied to the pharmaceutical characterization of mainly impurities and degradation products. This work presents a new approach to ion exchange chromatography as a screening method to investigate the presence of amfepramone, femproporex, sibutramine, bisacodyl and amiloride in dietary supplements advertised for weight loss. The method was optimized and validated using a Metrosep C4 100/4.0 cation exchange column. The mobile phase consisted of 1.8 mm HNO3 containing 2% acetonitrile (v/v), with a flow rate of 0.9 ml min−1, and nonsuppressed conductivity detection was applied. The limits of detection and quantification varied from 1.01 to 3.62 mg L−1 and from 1.48 to 8.72 mg L−1, respectively. The proposed method was successful applied to 78 solid dietary supplement samples, in two of which adulterations were found. Moreover, ion exchange chromatography with conductivity detection could be easily used for quality control without prior complex sample pre‐treatment.
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content type line 23
ISSN:0269-3879
1099-0801
DOI:10.1002/bmc.4669