This study was conducted to investigate the effects of dietary supplementation with yeast culture(YC)and organic selenium(Se)during late gestation and lactation on reproductive performance,milk quality,piglet preweani...This study was conducted to investigate the effects of dietary supplementation with yeast culture(YC)and organic selenium(Se)during late gestation and lactation on reproductive performance,milk quality,piglet preweaning performance,antioxidant capacity,and secretion of immunoglobulin in multiparous sows.A total of 160 healthy cross-bred sows(Landrace×Yorkshire,mean parity 4.1±0.3)were randomly assigned to 4 groups as follows:1)high nutrient(HN),3,420 kcal/kg digestible energy(DE)and 18.0%crude protein(CP);2)low nutrient(LN),3,240 kcal/kg DE and 16.0%CP;3)LN+YC,LN diet+10 g/kg YC;4)LN+YC+Se,LN diet+10 g/kg YC+organic Se(1 mg/kg Se).Feeding trials of sows started from d 85 of pregnancy to d 35 of lactation.Compared with sows in the LN group,sows fed the LN+YC+Se diet had greater litter weaning weight,average litter gain,and milk fat content(14-d and25-d milk)(P<0.05).The content of malonaldehyde(MDA)(colostrum and 14-d milk)was lesser,and the activity of glutathione peroxidase(GSH-Px)(colostrum and 25-d milk)was greater when sows were fed the LN+YC+Se diet,compared with sows fed the LN diet(P<0.05).Supplementation of YC and organic Se in the nutrient-restricted diet improved sows’reproductive performance and pig weaning body weight by enhancing the antioxidant capacity and fat content in milk.展开更多
The transition period of dairy cattle is characterized by a number of metabolic, endocrine, physiologic, and immune adaptations, including the occurrence of negative energy balance, hypocalcemia, liver dysfunction, ov...The transition period of dairy cattle is characterized by a number of metabolic, endocrine, physiologic, and immune adaptations, including the occurrence of negative energy balance, hypocalcemia, liver dysfunction, overt systemic inflammatory response, and oxidative stress status. The degree and length of time during which these systems remain out of balance could render cows more susceptible to disease, poor reproductive outcomes, and less efficient for milk production and quality. Studies on both monogastrics and ruminants have reported the health benefits of nutraceuticals(e.g. probiotics, prebiotics, dietary lipids, functional peptides, phytoextracts) beyond nutritional value, interacting at different levels of the animal's physiology. From a physiological standpoint, it seems unrealistic to disregard any systemic inflammatory processes. However, an alternate approach is to modulate the inflammatory process per se and to resolve the systemic response as quickly as possible.To this aim, a growing body of literature underscores the efficacy of nutraceuticals(active compounds) during the critical phase of the transition period. Supplementation of essential fatty acids throughout a 2-month period(i.e. a month before and a month after calving) successfully attenuates the inflammatory status with a quicker resolution of phenomenon. In this context, the inflammatory and immune response scenario has been recognized to be targeted by the beneficial effect of methyl donors, such as methionine and choline, directly and indirectly modulating such response with the increase of antioxidants GSH and taurine. Indirectly by the establishment of a healthy gastrointestinal tract, yeast and yeast-based products showed to modulate the immune response, mitigating negative effects associated with parturition stress and consequent disorders.The use of phytoproducts has garnered high interest because of their wide range of actions on multiple tissue targets encompassing a series of antimicrobial, antiviral, antioxidant, immune-stimulating, rumen fermentation, and microbial modulation effects. In this review, we provide perspectives on investigations of regulating the immune responses and metabolism using several nutraceuticals in the periparturient cow.展开更多
Traditional herbal medicine(THM)is a significant division of traditional Chinese medicine(TCM)that plays an important role in maintaining health and disease prevention.WHO has consistently highlighted the significance...Traditional herbal medicine(THM)is a significant division of traditional Chinese medicine(TCM)that plays an important role in maintaining health and disease prevention.WHO has consistently highlighted the significance of traditional,complementary,and alternative medicine in human healthcare.Most people in Eastern Asia will start their day with a cup of tea.The tea provides a nourishing effect,and it has become an inevitable part of life.There are several types of tea,like black tea,green tea,oolong tea,white tea,and herbal tea.Besides the refreshments,it is important to consume beverages that benefit health.One such alternative is a healthy probiotic drink called kombucha,a fermented tea.Kombucha tea is aerobically fermented by infusing sweetened tea with a cellulose mat/pellicle called SCOBY(symbiotic culture of bacteria and yeast).Kombucha is a source of bioactive compounds that include organic acids and amino acids,vitamins,probiotics,sugars,polyphenols,and antioxidants.Currently,studies on kombucha tea and SCOBY are gaining attention for their remarkable properties and applications in the food and health industries.The review gives an overview of the production,fermentation,microbial diversity,and metabolic products of kombucha.The possible implications for human health are also discussed.展开更多
基金supported by National Key R&D Program of China(No.2018YFD0500600)National Natural Science Foundation of the P.R.of China(No.31872364 and No.31802067)the Natural Science Foundation of Guangdong Province(No.2018A030310201)
文摘This study was conducted to investigate the effects of dietary supplementation with yeast culture(YC)and organic selenium(Se)during late gestation and lactation on reproductive performance,milk quality,piglet preweaning performance,antioxidant capacity,and secretion of immunoglobulin in multiparous sows.A total of 160 healthy cross-bred sows(Landrace×Yorkshire,mean parity 4.1±0.3)were randomly assigned to 4 groups as follows:1)high nutrient(HN),3,420 kcal/kg digestible energy(DE)and 18.0%crude protein(CP);2)low nutrient(LN),3,240 kcal/kg DE and 16.0%CP;3)LN+YC,LN diet+10 g/kg YC;4)LN+YC+Se,LN diet+10 g/kg YC+organic Se(1 mg/kg Se).Feeding trials of sows started from d 85 of pregnancy to d 35 of lactation.Compared with sows in the LN group,sows fed the LN+YC+Se diet had greater litter weaning weight,average litter gain,and milk fat content(14-d and25-d milk)(P<0.05).The content of malonaldehyde(MDA)(colostrum and 14-d milk)was lesser,and the activity of glutathione peroxidase(GSH-Px)(colostrum and 25-d milk)was greater when sows were fed the LN+YC+Se diet,compared with sows fed the LN diet(P<0.05).Supplementation of YC and organic Se in the nutrient-restricted diet improved sows’reproductive performance and pig weaning body weight by enhancing the antioxidant capacity and fat content in milk.
基金support from the “Romeo and Enrica Invernizzi Foundation” (Milan, Italy)Università Cattolica del Sacro Cuore (Piacenza, Italy)。
文摘The transition period of dairy cattle is characterized by a number of metabolic, endocrine, physiologic, and immune adaptations, including the occurrence of negative energy balance, hypocalcemia, liver dysfunction, overt systemic inflammatory response, and oxidative stress status. The degree and length of time during which these systems remain out of balance could render cows more susceptible to disease, poor reproductive outcomes, and less efficient for milk production and quality. Studies on both monogastrics and ruminants have reported the health benefits of nutraceuticals(e.g. probiotics, prebiotics, dietary lipids, functional peptides, phytoextracts) beyond nutritional value, interacting at different levels of the animal's physiology. From a physiological standpoint, it seems unrealistic to disregard any systemic inflammatory processes. However, an alternate approach is to modulate the inflammatory process per se and to resolve the systemic response as quickly as possible.To this aim, a growing body of literature underscores the efficacy of nutraceuticals(active compounds) during the critical phase of the transition period. Supplementation of essential fatty acids throughout a 2-month period(i.e. a month before and a month after calving) successfully attenuates the inflammatory status with a quicker resolution of phenomenon. In this context, the inflammatory and immune response scenario has been recognized to be targeted by the beneficial effect of methyl donors, such as methionine and choline, directly and indirectly modulating such response with the increase of antioxidants GSH and taurine. Indirectly by the establishment of a healthy gastrointestinal tract, yeast and yeast-based products showed to modulate the immune response, mitigating negative effects associated with parturition stress and consequent disorders.The use of phytoproducts has garnered high interest because of their wide range of actions on multiple tissue targets encompassing a series of antimicrobial, antiviral, antioxidant, immune-stimulating, rumen fermentation, and microbial modulation effects. In this review, we provide perspectives on investigations of regulating the immune responses and metabolism using several nutraceuticals in the periparturient cow.
基金supports from Vellore Institute of Technology (VIT)
文摘Traditional herbal medicine(THM)is a significant division of traditional Chinese medicine(TCM)that plays an important role in maintaining health and disease prevention.WHO has consistently highlighted the significance of traditional,complementary,and alternative medicine in human healthcare.Most people in Eastern Asia will start their day with a cup of tea.The tea provides a nourishing effect,and it has become an inevitable part of life.There are several types of tea,like black tea,green tea,oolong tea,white tea,and herbal tea.Besides the refreshments,it is important to consume beverages that benefit health.One such alternative is a healthy probiotic drink called kombucha,a fermented tea.Kombucha tea is aerobically fermented by infusing sweetened tea with a cellulose mat/pellicle called SCOBY(symbiotic culture of bacteria and yeast).Kombucha is a source of bioactive compounds that include organic acids and amino acids,vitamins,probiotics,sugars,polyphenols,and antioxidants.Currently,studies on kombucha tea and SCOBY are gaining attention for their remarkable properties and applications in the food and health industries.The review gives an overview of the production,fermentation,microbial diversity,and metabolic products of kombucha.The possible implications for human health are also discussed.