E Fesce
University of Milan
14 Papers
163 Citations
E Fesce is an academic researcher from University of Milan. The author has contributed to research in topics: Atrophic gastritis & Candida albicans. The author has an hindex of 7, co-authored 14 publications.
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Papers
Single-blind follow-up study on the effectiveness of a symbiotic preparation in irritable bowel syndrome.
TL;DR: Compared with baseline values and the control group, SCM-III resulted in a significant increase in lactobacilla, eubacteria and bifidobacteria, which suggests that some selected IBS patients could benefit substantially from symbiotics, but the treatment may need to be given on a cyclic schedule because of the temporary modification of the fecal flora.
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Ethanol-related gastric mucosal damage: evidence of a free radical-mediated mechanism and beneficial effect of oral supplementation with bionormalizer, a novel natural antioxidant.
TL;DR: The present data suggest that the natural antioxidant Bionormalizer when given orally promotes an effective protection against ethanol-induced gastric mucosal damage.
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•Journal Article
Chemopreventive effect of a probiotic preparation on the development of preneoplastic and neoplastic colonic lesions: an experimental study.
TL;DR: Effective probiotics treatment, through mechanisms still to be fully elucidated (decreased fecal pH, specific reduction of carcinogenetic bacterial enzymes, modulation of gut-associated and systemic immune system etc.) has the potential to exert significant antimutagenic properties against colon cancer.
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Effects of probiotics, lactitol and rifaximin on intestinal flora and fecal excretion of organic acids in cirrhotic patients
TL;DR: It was found that lactitol did not produce any significant effect on Bacteroides and Clostridium, whereas the specific bacterial counts of such species significantly decreased only in the group treated with the synbiotic, suggesting a potential role of synbiotics in the long term treatment of chronic liver disease.
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Nafamostat mesilate on the course of acute pancreatitis: protective effect on peritoneal permeability and relation with supervening pulmonary distress
TL;DR: FUT-175 proves to be a potent antiprotease molecule with a biochemical activity also against PLA2 in vivo and prevents significant transperitoneal-blood access of pancreatic enzymes.
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