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Ce produit n'est pas destiné à diagnostiquer, traiter, guérir ou prévenir toute maladie. Ces déclarations n'ont pas été évaluées par la Food and Drug Administration.
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Ces informations sont fournies à titre éducatif uniquement et ne remplacent pas un avis médical professionnel, un diagnostic ou un traitement. Consultez toujours votre professionnel de santé avant d'utiliser des plantes, surtout si vous êtes enceinte, allaitez, prenez des médicaments ou avez une condition médicale.
Tordylium maximum
Mediterranean and Middle Eastern Apiaceae used in folk medicine for respiratory complaints.
Tordylium maximum is a Mediterranean and Middle Eastern Apiaceae used traditionally for respiratory complaints. Its active compounds include furocoumarins, flavonoids, and terpenes, which contribute to expectorant and anti-inflammatory effects. Evidence is limited (Level C), primarily from traditional use and preliminary studies.
The expectorant action is attributed to terpenes and flavonoids that stimulate bronchial secretion and reduce mucus viscosity. Furocoumarins may inhibit cytochrome P450 enzymes (e.g., CYP3A4), potentially affecting drug metabolism, while flavonoids exert anti-inflammatory effects via COX-2 and NF-κB pathway modulation. The plant's photosensitizing properties are due to furocoumarins that intercalate with DNA upon UV exposure.
Mediterranean and Middle Eastern Apiaceae used in folk medicine for respiratory complaints.
Tordylium maximum is a Mediterranean and Middle Eastern Apiaceae used traditionally for respiratory complaints. Its active compounds include furocoumarins, flavonoids, and terpenes, which contribute to expectorant and anti-inflammatory effects. Evidence is limited (Level C), primarily from traditional use and preliminary studies.
The expectorant action is attributed to terpenes and flavonoids that stimulate bronchial secretion and reduce mucus viscosity. Furocoumarins may inhibit cytochrome P450 enzymes (e.g., CYP3A4), potentially affecting drug metabolism, while flavonoids exert anti-inflammatory effects via COX-2 and NF-κB pathway modulation. The plant's photosensitizing properties are due to furocoumarins that intercalate with DNA upon UV exposure.