Prakash Niguram scite author profile

Swertiamarin is a lead, biologically active compound obtained from Enicostemma littorale Blume and known to be identified for the anti-diabetic activity. Present work comprises the synthesis and structural optimization of seven novel swertiamarin analogues, and those were not being reported elsewhere to date. Swertiamarin was isolated, followed by modifications that have been accomplished amidst fluorinating, acetylating and oxidizing agents. Also, performed chromatographic purity and characterization of analogues.Despite, the swertiamarin analogues were screened for dipeptidyl peptidase IV (DPP-IV) enzyme inhibition with in silico studies. Besides, the pharmacokinetics and toxicity of analogues were predicted using ADMET software. In a nutshell, the compounds such as SNIPERSV-4 and SNIPERSV-7 have to pose good initial activity (~ 48%) in comparison to standard DPP-IV inhibitor (Sitagliptin). The identified analogues are active against DPP-IV enzyme in preliminary screenings, and these findings would be beneficial for the new age researchers also for the therapy of diabetes.

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Structural characterization of forced degradation products of empagliflozin by high resolution mass spectrometry

Niguram

Kate

2019

Journal of Liquid Chromatography & Related Technologies

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A novel hydrophilic interaction liquid chromatography method for the analysis of arterolane; Isolation and structural elucidation of its major degradation product by LC-HRMS and NMR

Niguram

Goswami

Kate

2020

Journal of Pharmaceutical and Biomedical Analysis

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Comprehensive metabolite identification study of arterolane using hydrophilic interaction liquid chromatography with quadrupole‐time‐of‐flight mass spectrometry

Niguram

Kate

2022

Rapid Comm Mass Spectrometry

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In 2012, arterolane (ART) in combination with piperaquine received approval in India for the treatment of plasmodium-induced malaria; however, to date, a detailed metabolite identification study of ART has not been reported. Being polar in nature, ART shows early elution on reversed-phase columns which might be the rate-limiting factor of its systematic analytical studies. We have utilized hydrophilic interaction liquid chromatography (HILIC) to separate in vitro and in vivo metabolites of ART. Methods:The possible sites of metabolism were predicted by XenoSite software to obtain an initial assessment. In vitro studies were conducted by incubating the drug with liver microsomes such as human, rat and human S9 fractions. Later, in vivo studies were performed to check the metabolites in urine, faeces and plasma. The samples were pooled and subjected to the protein precipitation method before analysis by liquid chromatography/quadrupole-time-of-flight mass spectrometry (LC/QTOFMS). Results:We have observed 15 metabolites in this study which were phase I metabolites formed due to hydroxylation, dihydroxylation, peroxide bond scission and oxidation. Here, we report 11 metabolites of ART for the first time. The metabolic pathways and plausible structures were proposed according to accurate mass measurements and its MS/MS data. Conclusions:The present study comprehensively reports the in vitro and in vivo metabolism of ART mentioning 11 novel metabolites. Here, extensive use of HILIC has helped to efficiently separate various metabolites. These findings would help

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Prakash Niguram

Update on compatibility assessment of empagliflozin with the selected pharmaceutical excipients employed in solid dosage forms by thermal, spectroscopic and chromatographic techniques

Synthesis, molecular docking and ADMET prediction of novel swertiamarin analogues for the restoration of type-2 diabetes: an enzyme inhibition assay

Structural characterization of forced degradation products of empagliflozin by high resolution mass spectrometry

A novel hydrophilic interaction liquid chromatography method for the analysis of arterolane; Isolation and structural elucidation of its major degradation product by LC-HRMS and NMR

Comprehensive metabolite identification study of arterolane using hydrophilic interaction liquid chromatography with quadrupole‐time‐of‐flight mass spectrometry

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