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Ultra-sensitive and selective fluorescence approach for estimation of elagolix in real human plasma and content uniformity using boron-doped carbon quantum dots

Baher I. Salman, Ahmed I. Hassan, Yasser F. Hassan, Roshdy E. Saraya

2022BMC Chemistry26 citationsDOIOpen Access PDF

Abstract

Abstract Elagolix (ELX) is an orally administered non-peptidic GnRH antagonist that has been approved by the Food and Drug Administration in 2018 for the treatment of endometriosis pain. A sensitive and selective method for estimating elagolix (ELX) in human plasma and content uniformity was developed and validated. The spectrofluorimetric technique was used to investigate ELX utilizing boron-doped carbon quantum dots (B@CQDs). After gradually adding ELX, the quantum dots fluorescence was enhanced with LOQ of 1.74 ng mL −1 , the calibration curve between ELX and corresponding fluorescence intensity was found over a range of 4–100 ng mL −1 . The method was successfully applied in real human plasma with pharmacokinetic study and content uniformity test. The pharmacokinetic parameters as C max were found to be 570 ± 5.32 ng. mL −1 after 1 h, t 1/2 was found to be 6.50 h, and AUC was found to be 1290 ± 30.33 ng. h. mL −1 . B@CQDs were characterized using variety of instruments. The strategy is simple to implement in clinical labs and therapeutic drug monitoring systems.

Topics & Concepts

FluorescencePharmacokineticsCmaxCarbon quantum dotsBoronQuantum dotHuman plasmaFood and drug administrationMaterials scienceDopingCalibration curveChemistryAnalytical Chemistry (journal)Detection limitChromatographyNanotechnologyPharmacologyOptoelectronicsMedicineOrganic chemistryOpticsPhysicsEndometriosis Research and TreatmentPregnancy and Medication ImpactPregnancy-related medical research
Ultra-sensitive and selective fluorescence approach for estimation of elagolix in real human plasma and content uniformity using boron-doped carbon quantum dots | Litcius