H. Schilcher scite author profile

Microcalorimetric and electron microscopic studies on the mode of the antibacterial action of propolis were performed on Streptococcus agalactiae. It was shown that propolis inhibits bacterial growth by preventing cell division, thus resulting in the formation of pseudo-multicellular streptococci. In addition, propolis disorganized the cytoplasm, the cytoplasmic membrane, and the cell wall, caused a partial bacteriolysis, and inhibited protein synthesis. It was evident that the mechanism of action of propolis on bacterial cells is complex and a simple analogy cannot be made to the mode of action of any classic antibiotics.

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Vorwort zur 3. Auflage

Schilcher¹,

Kämmerer²,

Wegener³

2007

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In Vitro Antimicrobial Activities of Essential Oils Monographed in the European Pharmacopoeia 6th Edition

Pauli¹,

Schilcher²

2009

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Antispasmodic and Relaxant Activity of Chelidonine, Protopine, Coptisine, andChelidonium majusExtracts on Isolated Guinea-Pig lleum

Hiller¹,

Ghorbani²,

Schilcher³

1998

Planta Med

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Two ethanolic dry extracts from the herb Chelidonium majus L. with a defined content of the main alkaloids (chelidonine, protopine, and coptisisine) and the alkaloids themselves were studied in three different antispasmodic test models on isolated ileum of guinea-pigs. In the BaCl2-stimulated ileum, chelidonine and protopine exhibited the known papaverine-like musculotropic action, whereas coptisine (up to 3.0 x 10(-5) g/ml) was ineffective in this model. Both extracts were active with 53.5% and 49.0% relaxation at 5 x 10(-4) g/ml. The carbachol and the electric field stimulated contractions were antagonized by all three alkaloids. Coptisine showed competitive antagonist behaviour with a pA2 value of 5.95. Chelidonine and protopine exhibited a certain degree of non-competitive antagonism. In the electric field the antagonist activities decreased in the order protopine > coptisine > chelidonine. The concentrations of the chelidonium herb extracts for 50% inhibition of the carbachol and electrical field induced spasms were in the range of 2.5 to 5 x 10(-4) g/ml.

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Specific Selection of Essential Oil Compounds for Treatment of Children’s Infection Diseases

Pauli

Schilcher²

2004

Pharmaceuticals

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Abstract:Preparations with essential oils and their dosages applied in the therapy of children's infectious diseases are well documented. In contrast, information is only sparingly available about uses of isolated pure essential oil compounds for the treatment of such infections. To find out safe antimicrobials from essential oils, microbiological inhibitory data of children pathogens were combined with oral and dermal acute toxicity data to calculate oral and dermal therapeutical indices (TI). The superiority of antibiotic drugs became obvious following calculating oral TIs of antimicrobials from higher plants, which suggests that oral administrations of essential oil compounds are not suitable to cure severe infections. A few selected compounds from higher plants show moderate effectiveness against gram-positive bacteria, yeast and fungi, but not gram-negative bacteria. Topical application or inhalation of selected compounds for the treatment or additional treatment of mild infections is reasonable.

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H. Schilcher

Electron Microscopic and Microcalorimetric Investigations of the Possible Mechanism of the Antibacterial Action of a Defined Propolis Provenance

Vorwort zur 3. Auflage

In Vitro Antimicrobial Activities of Essential Oils Monographed in the European Pharmacopoeia 6th Edition

Antispasmodic and Relaxant Activity of Chelidonine, Protopine, Coptisine, andChelidonium majusExtracts on Isolated Guinea-Pig lleum

Specific Selection of Essential Oil Compounds for Treatment of Children’s Infection Diseases

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