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Development and Characterization of EGCG-Loaded TPGS/Poloxamer 407 Micelles with Evaluation of In Vitro Drug Release and In Vivo Pharmacokinetics and Tolerability Observations Following Oral Administration

Chee‐Yin Wong, Kai Bin Liew, Yang Mooi Lim, Yik-Ling Chew, Ang-Lim Chua, Shi‐Bing Yang, Siew-Keah Lee

2025Pharmaceutics5 citationsDOIOpen Access PDF

Abstract

Background: Epigallocatechin-3-gallate (EGCG), a potent green tea polyphenol, possesses significant therapeutic potential, but its clinical application is limited by poor gastrointestinal stability and low oral bioavailability. To address this, a novel herbal nanomedicine-based delivery system was developed utilizing D-α-tocopheryl polyethylene glycol succinate (TPGS) and Poloxamer 407. Objectives: This study aims to develop and characterize EGCG-loaded TPGS/Poloxamer 407 micelles, evaluating their physicochemical properties, storage stability, in vitro drug release profile, in vivo oral bioavailability, and preliminary tolerability observation. Methods: The micelles were prepared using the film hydration method followed by lyophilization. Results: The optimized 2:2 TPGS-to-poloxamer 407 weight ratio yielded EGCG-loaded micelles, displaying a mean particle size of 15.4 nm, a polydispersity index (PDI) of 0.16, a zeta potential of −17.7 mV, an encapsulation efficiency of 82.7%, and a drug loading capacity of 7.6%. The critical micelle concentration (CMC) was determined to be 0.00125% w/v. Transmission electron microscopy (TEM) confirmed the micelles’ uniform spherical morphology. In vitro release studies demonstrated a sustained release profile in both simulated gastric and intestinal fluids. EGCG formulation remained stable for at least six months when stored at 4 °C. No adverse clinical signs were noted during the 28-day tolerability observation. In vivo pharmacokinetic evaluation in mice revealed a significant elevation in oral bioavailability, achieving a 2.27-fold increase in area under the curve (AUC) and a 1.8-fold increase in peak plasma concentration (Cmax) compared to free EGCG. Conclusions: Collectively, these findings underscore the potential of the TPGS/poloxamer 407-based micelle system as a promising oral delivery platform for EGCG, enhancing its stability and pharmacokinetic performance.

Topics & Concepts

TolerabilityIn vivoPharmacokineticsPharmacologyPoloxamerOral administrationChemistryMicelleDrugPoloxamer 407Polyethylene glycolDrug deliveryDispersityZeta potentialParticle sizeBioavailabilityTherapeutic indexChromatographyIn vitroArea under the curveAdverse effectDrug carrierSalivaControlled releaseCritical micelle concentrationMedicinePharmacodynamicsDosage formTea Polyphenols and EffectsAdvanced Drug Delivery SystemsGinkgo biloba and Cashew Applications
Development and Characterization of EGCG-Loaded TPGS/Poloxamer 407 Micelles with Evaluation of In Vitro Drug Release and In Vivo Pharmacokinetics and Tolerability Observations Following Oral Administration | Litcius