Determination of synthetic drugs as adulterant in herbal anti-diabetic medicines by HPLC
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Date
2018-10Publisher
BRAC UniversityAuthor
Chowdhury, Anika TasnimMetadata
Show full item recordAbstract
Herbal medicines are increasingly being used in both preventative and treatment-based
medicines and tonics because consumers perceive herbal drugs as “natural” safe, harmless
and free from adverse side effects. However, adulteration of herbal drugs is very common
nowadays and counterfeit drug manufacturers thrives success by exploiting the trust of the
patients on herbal medicine. As diabetes is one major chronic disease, patients with
diabetes comply with herbal medicines almost all the time for overall well-being and better
control of the disease. This makes anti-diabetic herbal drugs an easy target for the
counterfeiters. What patients fail to understand is, herbs are filled with numerous bioactive
molecules which can interact with the prescription oral hypoglycemic drugs and can lead
to serious adverse effects. Furthermore, diabetic patients require multiple drug therapy,
which put them at risk of frequent drug interactions between the herbal drugs and the
synthetic medicines. In the worst-case scenario, taking herbal drugs that are adulterated
with synthetic oral hypoglycemics along with prescription oral hypoglyecmics can lead to
overdose and acute hypoglycemia followed by death. Therefore, this experiment is aimed
at determining the presence of synthetic oral hypoglycemics in herbal anti-diabetic
formulations. Herbal anti-diabetic drugs available at the local market of Dhaka were
collected as samples for the experiment. Metformin and Glimepiride were considered as
reference standards for the experiment. Samples and standards were subjected to HPLC
for analysis with acetonitrile: Phosphate buffer (pH 2.1) at a 70:30 ratio as the mobile
phase. This mobile phase ratio provided effective elution of both of the standards at distant
retention times, which helped with clear identification and identification of both of the
standards. The devised method was also successful in clearly identifying and quantifying
substances present at the samples (herbal anti-diabetic drugs). From 25 tested samples 16
samples confirmed the presence of adulterants which concluded that 64% of the samples
were adulterated. This high rate of drug adulteration inside the capital gives an easy
assumption of equal or higher rate of drug adulteration in the outskirt areas and these calls
for more sensitive QC methods and stricter regulations to control such act.