Moritz Macha scite author profile

As part of an interdisciplinary research project, the performance response of sows and their litters to the probiotic strain Enterococcus faecium NCIMB 10415, as well as some health characteristics of the piglets, were studied. Gestating sows (n = 26) were randomly allotted into 2 groups. The probiotic was administered by dietary supplementation to 1 group of sows and their respective litters (probiotic group), whereas the second group (control group) received no probiotic supplementation. The duration of the treatment was nearly 17 wk for sows (d 90 ante partum until d 28 postpartum) and 6 wk for piglets (d 15 to 56). Body weight and feed consumption were recorded weekly. The frequency of 4 toxin and 5 adhesion genes of putative pathogenic Escherichia coli was monitored weekly (d 7 to 35) by multiplex PCR assays, and fecal consistency of weaned piglets was studied daily. Probiotic treatment of lactating sows led to an overall pre-weaning mortality of 16.2% compared with 22.3% in the control group (P = 0.44). Animal losses during the first 3 d of the suckling period were decreased in the probiotic group (P = 0.09). For piglets (n = 153), which were weaned at 28 d, there were no overall treatment differences in BW gain, feed intake, or feed efficiency. Probiotic supplementation, however, led to nearly a 40% reduction (P = 0.012). The actual percentage of piglets with postweaning diarrhea in the probiotic group was 21% compared with 38% in the control group (P = 0.05). The study on virulence factors of dominant fecal E. coli isolates revealed a high diversity with varying frequency and distribution of each single pathogenicity gene. The 440 isolates carried 29 different pathogenicity gene combinations as well as each of the 9 pathogenicity genes alone. Altogether, isolates with more than 2 pathogenicity genes were quite rare (< or = 10%), and up until d 28 isolates without any pathogenicity gene occurred most frequently. Depending on the time of sampling, one-third or more of all isolates contained est2 or est1b as single gene or in combination with other pathogenicity genes.

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Response of performance characteristics and fecal consistency to long-lasting dietary supplementation with the probiotic strainBacillus cereusvar. toyoi to sows and piglets

Taras

Vahjen

Macha

et al. 2005

Archives of Animal Nutrition

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As part of an interdisciplinary research project, we studied the performance response of sows and their litters to the probiotic strain Bacillus cereus var. toyoi as well as feces consistency of piglets. Gestating sows (n=26) were randomly allotted into two groups. The probiotic B. cereus var. toyoi was administered by dietary supplementation to one group of sows and their respective litters (probiotic group) whereas the second group (control group) received no probiotic supplementation. The duration of the application was nearly 17 weeks for sows (day 90 ante partum until day 28 post partum) and six weeks for piglets (day 15-56). Piglets were weaned after 28 days. Body weight and feed consumption were recorded weekly and fecal consistency of weaned piglets was studied daily. B. cereus var. toyoi was recovered from feces of sows and piglets as well as from digesta of piglets in the probiotic group, while being absent from all samples of control animals. In addition, the probiotic was detected in piglet feces and digesta before pre-starter feed was offered, indicating a second route of uptake besides diet. Sows of the probiotic group nursed numerically more piglets and supported a higher sum of total nursing days of all piglets within each litter than control sows (p = 0.04). In turn, body weight (BW) up to day 35 was greater for control piglets (p < 0.01), while average daily gain and gain to feed ratio (G:F) in weeks six and eight postweaning was higher in the probiotic group (p < 0.05). The overall G:F of the total postweaning period was 680 g/kg and 628 g/kg in the probiotic group and control group, respectively (p = 0.009). During the trial a high prevalence of liquid feces with its maximum in the second week after weaning was observed. Probiotic supplementation led to a reduction in the incidence of liquid feces and postweaning diarrhea by 38% and 59%, respectively (p < 0.001).

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Treponema berlinense sp. nov. and Treponema porcinum sp. nov., novel spirochaetes isolated from porcine faeces

Nordhoff

Taras

Macha

et al. 2005

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Limit-dilution procedures were used to isolate seven, helically coiled bacterial strains from faeces of swine that constituted two unidentified taxa. Comparative 16S rRNA gene sequence analysis showed highest similarity values with species of the genus Treponema indicating that the isolates are members of this genus. Strain 7CPL208T, as well as five further isolates, and 14V28T displayed the highest 16S rRNA gene sequence similarities with Treponema pectinovorum ATCC 33768T (92·3 %) and Treponema parvum OMZ 833T (89·9 %), respectively. Polar lipid profiles distinguished 7CPL208T and 14V28T from each other as well as from related species. Based on their phenotypic and genotypic distinctiveness, strains 7CPL208T and 14V28T are suggested to represent two novel species of the genus Treponema, for which the names Treponema berlinense sp. nov. and Treponema porcinum sp. nov. are proposed. The type strain for Treponema berlinense is 7CPL208T (=ATCC BAA-909T=CIP 108244T=JCM 12341T) and for Treponema porcinum 14V28T (=ATCC BAA-908T=CIP 108245T=JCM 12342T).

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Specific enumeration of the probiotic strainEnterococcus FaeciumNCIMB 10415 in the intestinal tract and in faeces of piglets and sows

Macha

Taras

Vahjen

et al. 2004

Archives of Animal Nutrition

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The intestinal bacterium Enterococcus faecium NCIMB 10415 (E. faecium SF68) has been used for more than a decade as a probiotic strain in animal nutrition as well as in the prevention and treatment of diarrhoea in humans. Beneficial effects have been shown in feeding and clinical trials. However, the strain has no selective growth markers and monitoring in the intestinal tract is impossible by cultivation. Using specific nucleotide sequences, in this study a probe for colony hybridization was constructed in order to quantify this probiotic strain in feed and intestinal and faecal samples from piglets and sows. The probiotic strain showed almost constant amounts in sow faeces (1.8 x 10(5) cfu/g wet weight), while contents in digesta and piglet faeces varied on a lower level depending on gut section and piglet age. The ratio of specific probiotic counts and total enterococci was much lower than in sow faeces however the strain could be detected reliably in faeces already on the 14th day of life. The application of the colony hybridization method enables for the first time the selective detection of the widely used probiotic E. faecium NCIMB 10415 strain among total Enterococcus spp. counts of digesta, faeces and feed. It is now possible to monitor the presence of the probiotic in the intestinal tract and faeces. Results of this study have implications for the proposed modes of action of probiotics in animal nutrition.

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Dosierungstabellen für Nagetiere und Kaninchen

Göbel¹,

Macha²

2008

kleintier konkret

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Moritz Macha

Performance, diarrhea incidence, and occurrence of Escherichia coli virulence genes during long-term administration of a probiotic Enterococcus faecium strain to sows and piglets1

Response of performance characteristics and fecal consistency to long-lasting dietary supplementation with the probiotic strainBacillus cereusvar. toyoi to sows and piglets

Treponema berlinense sp. nov. and Treponema porcinum sp. nov., novel spirochaetes isolated from porcine faeces

Specific enumeration of the probiotic strainEnterococcus FaeciumNCIMB 10415 in the intestinal tract and in faeces of piglets and sows

Dosierungstabellen für Nagetiere und Kaninchen

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