Human Pharmacokinetic Profiling and Comparative Analysis of Mangiferin and Its Monosodium Derivative from Mangifera indica Extracts Using UHPLC-MS/MS with 1H NMR and MALDI-TOF Confirmation

Mangiferin, a glucosyl xanthone, is a plant metabolite with promising nootropic and ergogenic properties. However, its poor and inconsistent systemic bioavailability limits its therapeutic potential. Additionally, the pharmacokinetics of mangiferin from mango leaf extract formulations remain unchara...

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Veröffentlicht in:	Molecules (Basel, Switzerland) Switzerland), 2025-01, Vol.30 (3), p.461
Hauptverfasser:	Fuentes-Rios, David, Sanchez-Rodriguez, Alvaro, Lopez-Rios, Laura, Garcia-Gonzalez, Eduardo, Martinez-Canton, Miriam, Galvan-Alvarez, Victor, Gallego-Selles, Angel, Martin-Rincon, Marcos, Calbet, Jose A. L., Vega-Morales, Tanausu
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creator	Fuentes-Rios, David Sanchez-Rodriguez, Alvaro Lopez-Rios, Laura Garcia-Gonzalez, Eduardo Martinez-Canton, Miriam Galvan-Alvarez, Victor Gallego-Selles, Angel Martin-Rincon, Marcos Calbet, Jose A. L. Vega-Morales, Tanausu
description	Mangiferin, a glucosyl xanthone, is a plant metabolite with promising nootropic and ergogenic properties. However, its poor and inconsistent systemic bioavailability limits its therapeutic potential. Additionally, the pharmacokinetics of mangiferin from mango leaf extract formulations remain uncharacterized in humans. This study validated a UHPLC-MS/MS method and conducted a human pharmacokinetic study approved by an ethics committee. The bioavailability of mangiferin and its monosodium salt was assessed from two standardized mango leaf extracts: MLE60, standardized to 60% mangiferin but practically insoluble in water, and MLES, the water-soluble monosodium salt form, also standardized to 60%. Twelve participants (six females) received oral doses of each extract in a crossover design with a 7-day washout period. Plasma analysis showed significantly higher AUC and Cmax values with MLES than MLE60, while Tmax and T1/2 were similar. MLES demonstrated a 2.44-fold increase in AUC0–24h compared to MLE60 (p = 0.0029 **), indicating improved bioavailability. This study highlights the salification method as a simple strategy to enhance mangiferin bioavailability, enabling broader applications in beverages and other products where solubility is a limitation.
doi_str_mv	10.3390/molecules30030461
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title	Human Pharmacokinetic Profiling and Comparative Analysis of Mangiferin and Its Monosodium Derivative from Mangifera indica Extracts Using UHPLC-MS/MS with 1H NMR and MALDI-TOF Confirmation
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