Corinne Guérin-Danan scite author profile

Ingestion of fermented dairy products induces changes in the equilibrium and metabolism of the intestinal microflora and may thus exert a healthful influence on the host. We compared the effects of consumption of a traditional yogurt, a milk fermented with yogurt cultures and Lactobacillus casei (YC), and a nonfermented gelled milk on the fecal microflora of healthy infants. Thirty-nine infants aged 10-18 mo were randomly assigned to one of three groups in which they received 125 g/d of one of the three products for 1 mo. The following indexes were not modified during the supplementation period or for 1 wk after the end of supplementation: total number of anaerobes, bifidobacteria, bacteroides, and enterobacteria; pH; water content; concentrations of acetate, butyrate, propionate, and lactate; and bacterial enzyme activity of beta-galactosidase and alpha-glucosidase. In contrast, in the yogurt group the number of enterococci in fecal samples increased (P < 0.05), whereas the percentage of branched-chain and long-chain fatty acids, which are markers of proteolytic fermentation, decreased (P < 0.05). In the YC group, the percentage of children with > 6 log10 colony-forming units lactobacilli/g feces increased (P < 0.05), whereas the potentially harmful enzyme activity of beta-glucuronidase and beta-glucosidase decreased (P < 0.05). These decreases were particularly marked in those infants in the YC group in whom activity of the enzymes was initially unusually high.

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Food Supplementation with Milk Fermented by Lactobacillus casei DN-114 001 Protects Suckling Rats from Rotavirus-Associated Diarrhea

Guérin-Danan¹,

Meslin²,

Chambard³

et al. 2001

The Journal of Nutrition

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Group A rotavirus is the leading cause of diarrhea among children aged 3-36 mo worldwide. Introducing fermented milk products into the infant diet has been proposed for the prevention or treatment of rotavirus diarrhea. The preventive effect of milk fermented by the Lactobacillus casei strain DN-114 001 was studied in a model of germfree suckling rats supplemented daily from d 2 of life and infected with SA11 rotavirus at d 5 (RF group). One group was supplemented with nonfermented milk (RM) and two uninfected groups (CM and CF) received either nonfermented or fermented milk. Frequency and severity of diarrhea were observed. Rats were killed at various times from 0 to 120 h postinfection (p.i.). Bacteria were measured in the intestine, and rotavirus antigens were detected by ELISA in fecal samples and in different parts of the intestine. Histologic observations were made, including vacuolation, morphology of intestinal villi and number of mucin cells. RM rats had diarrhea for 6 d; compared with the CM group, they had alterations of the intestinal mucosa characterized by cellular vacuolation 48 and 72 h p.i. and a lower number of sulfated mucin cells 72 and 96 h p.i. (P: < 0.05). Early supplementation with fermented milk significantly decreased the clinical signs of diarrhea from 24 to 144 h p.i. (P: < 0.05) and prevented rotavirus infection in all sections of the intestine. Histologic lesions of the small intestine were greatly reduced (P: < 0.05) and the number of mucin cells remained unchanged. The data are discussed with respect to the possibility of reducing rotavirus diarrhea in young children by consumption of fermented milk.

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Pattern of Metabolism and Composition of the Fecal Microflora in Infants 10 to 18 Months Old from Day Care Centers

Guérin-Danan

Andrieux

Popot³

et al. 1997

Journal of Pediatric Gastroenterology & Nutrition

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Storage of intestinal bacteria in samples frozen with glycerol

Guérin-Danan¹

1999

Microbial Ecology in Health and Disease

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For clinical studies, it would be useful to store faecal samples before bacteriological analyses. However, information is needed on the effect of freezing on the survival of micro-organisms. In this study, faecal samples were stored in glycerol at − 80°C for four months. Although the concentrations of predominant anaerobic bacterial populations ( \ 8 log(cfu g − 1 ), total anaerobes and bifidobacteria, decreased significantly (pB 0.05) after freezing, this decrease did not exceed interindividual variation. The facultative anaerobes, enterobacteria, enterococci and lactobacilli, were not significantly affected by freezing. Furthermore, the magnitude of individual variability was similar before and after freezing. These results confirm the relevance of our freezing technique for studying the intestinal microflora which involves numerous samples that cannot be analysed simultaneously for practical reasons.

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