1. Effectiveness of modified yeast cell wall extracts to reduce aflatoxin B1 absorption in dairy ewes
- Author
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Diego P. Morgavi, Alexandros Yiannikouris, Hamid Boudra, Stéphane Firmin, Unité de Recherches sur les Herbivores (URH), Institut National de la Recherche Agronomique (INRA), Alltech-France, Alltech Inc, Partenaires INRAE, and S. Firmin was supported by a doctoral fellowship (CIFRE 1058/2007) jointly financed by Alltech and Association Nationale de la Recherche Technique (ANRT, France). The authors greatly thank J. P. Jouany (INRA, Centre de Clermont-Theix, Saint Genes-Champanelle, France) for helpful discussions during the experimental set up, C. Mathevon and the staff of the animal experimental facilities of the INRA's Herbivores Research Unit for animal care, and D. Alvarez (INRA, Centre de Clermont-Theix, Saint Genes-Champanelle, France) for help in sample analysis.
- Subjects
[SDV.SA]Life Sciences [q-bio]/Agricultural sciences ,aflatoxins ,Aflatoxin ,Aflatoxin B1 ,Time Factors ,food science and technology ,040301 veterinary sciences ,dairy and animal science ,Agriculture, Dairy & Animal Science ,Food Science & Technology ,Urine ,Absorption (skin) ,Biology ,dairy sheep ,Absorption ,0403 veterinary science ,Excretion ,Cell wall ,Eating ,0404 agricultural biotechnology ,Cell Wall ,Yeasts ,Genetics ,Animals ,Lactation ,Food science ,extract ,paroie cellulaire ,Feces ,agriculture ,2. Zero hunger ,Sheep ,Body Weight ,food and beverages ,yeast cell wall ,04 agricultural and veterinary sciences ,040401 food science ,Yeast ,Diet ,Dairying ,Milk ,Female ,excretion ,Animal Science and Zoology ,Composition (visual arts) ,Food Science - Abstract
International audience; This study investigated the effect of a modified yeast cell wall extract preparation (YCW) on the excretion of aflatoxin B1 (AFB1) and aflatoxin M1 (AFM1) in feces, urine, and milk of dairy ewes fed an aflatoxin-contaminated diet. Sixteen ewes in mid-lactation were assigned to 4 treatment groups: control, AF (60 mu g of AFB1/kg of feed), YCW (2 g/kg of feed), and AF+YCW. The trial consisted of a short-term (3-d) exposure period followed by a long-term (21-d) exposure period. At the end of each exposure period, milk, urine, and feces were collected over 72 h. The treatments did not affect feed intake, milk production, milk composition, or body weight. The presence of AFM1 was detected in all matrices, whereas AFB1 was only present in feces. Daily excretion was higher following long-term exposure and reached 26.9 mu g of AFB1/d in feces, 37.2 mu g of AFM1/d in feces, and 10.7 mu g of AFM1/d in urine. Supplementation with YCW was effective in increasing aflatoxin excretion in feces in the long-term exposure (up to 156% increase). The effect was accompanied by a trend of decreasing urinary excretion of AFM1. In contrast, the addition of YCW to the contaminated diet did not affect the transfer of aflatoxins from feed to milk under the present experimental conditions with low-producing ewes. The transfer rates of AFM1 in milk ranged from 0.24 to 0.54%. In conclusion, feed supplementation with YCW reduced the absorption of AFB1 and increased the elimination of AFB1 and AFM1 in ewe feces. Yeast cell wall extract could be used to protect ruminants from chronic exposure to aflatoxins present in feeds.
- Published
- 2011