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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.
Fagus sylvatica
Arbre forestier européen dont l'écorce et le créosote (issu de la distillation du bois) sont utilisés à des fins médicinales.
Fagus sylvatica (European beech) is a tree whose bark and wood-derived creosote are used medicinally. Modern uses include antiseptic and antifungal applications, while traditional uses span respiratory conditions and wound healing. Key active compounds include tannins, flavonoids, betulin, and creosote.
The tannins and flavonoids in beech bark exert astringent and antioxidant effects, which may contribute to wound healing and antimicrobial activity. Creosote, a complex mixture of phenols, acts as a topical antiseptic by denaturing proteins and disrupting microbial cell membranes. Betulin and other triterpenes may modulate inflammatory pathways, though specific receptor interactions are not well characterized.
Arbre forestier européen dont l'écorce et le créosote (issu de la distillation du bois) sont utilisés à des fins médicinales.
Fagus sylvatica (European beech) is a tree whose bark and wood-derived creosote are used medicinally. Modern uses include antiseptic and antifungal applications, while traditional uses span respiratory conditions and wound healing. Key active compounds include tannins, flavonoids, betulin, and creosote.
The tannins and flavonoids in beech bark exert astringent and antioxidant effects, which may contribute to wound healing and antimicrobial activity. Creosote, a complex mixture of phenols, acts as a topical antiseptic by denaturing proteins and disrupting microbial cell membranes. Betulin and other triterpenes may modulate inflammatory pathways, though specific receptor interactions are not well characterized.