Feed supplementation with potentiated zinc and/or tannin-rich extracts reduces ETEC infection severity and antimicrobial resistance genes in pig

断奶 丹宁 抗菌剂 腹泻 抗生素 产肠毒素大肠杆菌 生物 饲料添加剂 医学 抗生素耐药性 食品科学 动物科学 微生物学 兽医学 内科学 大肠杆菌 生物化学 基因 肠毒素 肉鸡
作者
C Ollagnier,Maria-Rita Mellino,Nicolas Pradervand,Marco Tretola,Sébastien Dubois,S. Durosoy,Olivier Desrues,Johana Bellon
出处
期刊:Frontiers in Veterinary Science [Frontiers Media]
卷期号:12
标识
DOI:10.3389/fvets.2025.1494103
摘要

Most antimicrobials used in pig production are prescribed to treat post-weaning diarrhea (PWD), which constitutes a major health issue in pig production. With the spread of multidrug-resistant pathogens, finding solutions to diminish the severity of PWD without antibiotics has become increasingly critical. Potentiated forms of zinc oxide (ZnO) and plant-based bioactive compounds like tannins have been shown to alleviate the severity of diarrhea, thus reducing the need for antibiotic treatment. The aim of this project was to test whether a potentiated form of ZnO (pZnO), alone (study 1) or in combination with tannin-rich extract (study 2), can be used in starter diets for weaned piglets infected by enterotoxigenic Escherichia coli (ETEC) to reduce PWD severity. At 26 ± 1.6 days of age (average body weight 7.8 ± 1.02 kg), 160 piglets (study 1, n = 72; study 2, n = 88) were randomly and equally assigned to four dietary treatments (study 1 = 18; study 2 = 22 pigs/group) and orally infected 4 days after weaning with a solution containing 10 10 ETEC F4. Study 1 compared the effect of 150 mg Zn/kg pZnO (pZnO-150) and 300 mg Zn/kg pZnO (pZnO-300) to a negative control (C) and a positive control, 3,000 mg Zn/kg ZnO (C-3000). In study 2, a combination of 7.5 g/kg tannin extract (quebracho and chestnut) and 150 mg Zn/kg pZnO (TAN+pZnO-150) was compared to pZnO-150 and 7.5 g/kg tannin-rich extract (TAN) alone and to a negative control (C). The fecal score, bodyweight, daily food intake per pen, fecal F4 ETEC and Zn levels were analyzed. The small intestine content was sampled 9 days after infection to analyze the number of antimicrobial resistance genes. Regardless of the inclusion level, TAN+pZnO-150, TAN and pZnO led to a reduction in antibiotic treatment ( p < 0.05), but only TAN and TAN+pZnO-150 reduced the fecal score ( p < 0.05). C-3000 improved the average daily gain ( p < 0.05). Tannin-rich extract and potentiated zinc oxide (pZnO) in starter diets effectively reduce the need for antibiotics in ETEC-challenged piglets. Traditional high-dose ZnO improved growth rates, but lower-dose alternatives with tannins provided health benefits without high zinc levels. These findings highlight sustainable dietary strategies to manage post-weaning diarrhea, supporting reduced antibiotic use in pig production.

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