In vitro activity of Spirulina platensis water extract against different Candida species isolated from vulvo-vaginal candidiasis cases.

The high incidence of vulvo-vaginal candidiasis, combined with the growing problems about azole resistance and toxicity of antifungal drugs, highlights the need for the development of new effective strategies for the treatment of this condition. In this context, natural compounds represent promising alternatives. The cyanobacterium Spirulina platensis, a blue-green alga, exhibits antimicrobial activities against several microorganisms. Nevertheless, only few data about the antifungal properties of Spirulina platensis are available and its potential toxic effects have not been largely investigated. The aim of this study was to evaluate the in vitro activity of a fully-characterized water extract of Spirulina platensis against 22 strains of Candida spp. Prior to considering its potential topical use, we both investigated whether the extract exerted target activities on guinea pig uterine smooth muscle, and the impact of Spirulina platensis on the dominant microorganisms of the vaginal microbiota (i.e., lactobacilli), in order to exclude possible adverse events. By means of a broth microdilution assay, we found that the microalga extract possesses good antifungal properties (MIC: 0.125-0.5 mg/ml), against all the Candida species with a fungicidal activity. At the concentrations active against candida, Spirulina platensis did not modify the spontaneous basic waves pattern of uterine myometrium as underlined by the absence of aberrant contractions, and did not affect the main health-promoting bacteria of the vaginal ecosystem. Finally, we evaluated the selectivity index of our extract by testing its cytotoxicity on three different cell lines and it showed values ranging between 2 and 16. Further in vivo studies are needed, in particular to evaluate the use of control-release formulations in order to maintain Spirulina platensis concentrations at anti-Candida active doses but below the toxic levels found in the present work.

Newer Insights into the Antidiarrheal Effects of Acacia catechu Willd. Extract in Guinea Pig.

Acacia catechu Willd. is a plant diffused in India and other Asian countries, where it is used as a traditional medicine for the treatment of several ailments including diarrhea, one of the most common pathologies worldwide. In this study, we determined the chemical composition of Acacia catechu Willd. extract (AC) and evaluated its effect on spontaneous and induced contractility in isolated guinea pig ileum and proximal colon. Preliminary data about its antimicrobial effect against some pathogen agents versus some microbiota intestinal strain have been also reported. Chemical analysis revealed the presence of catechins, such as (-)-Epicatechin and (+)-Catechin. AC extract reduced frequency and amplitude of colon smooth muscle spontaneous contractility, in a concentration-dependent manner. A weaker effect of the extract was exerted toward ileum smooth muscle spontaneous contractility. The observed calcium antagonistic effect was more potent in proximal colon than in ileum. The extract showed a noncompetitive reversible antagonism to carbachol, both in proximal colon and ileum, with a higher potency in proximal colon. The antimicrobial effects of AC extract were observed toward Campylobacter jejuni, Escherichia coli, and Salmonella spp., while Bifido and Lactobacillus were not affected by treatment. These effects, however, occurred at concentrations fivefold higher than those inhibiting ileum and colon contractility. In conclusion, our results suggest that AC affects intestinal contractility without affecting intestinal bacterial flora and this may result in clinical benefits in patients suffering from nonbacterial diarrhea.