Effects of mannan-oligosaccharide and Bacillus subtilis supplementation to preweaning Holstein dairy heifers on body weight gain, diarrhea, and shedding of fecal pathogens

Lucey, P.M.; Lean, I.J.; Aly, Sharif S.; Golder, H.M.; Block, E.; Thompson, Jesse; Rossow, Heidi A

doi:10.3168/jds.2020-19425

Cited by 40 publications

(21 citation statements)

References 46 publications

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“…have been effectively utilized as probiotic microorganisms for human, poultry, and swine ( Cutting, 2011 ; Luise et al, 2022 ). In ruminants, only a few studies evaluated the effects of such probiotics on performance, rumen fermentation profile, and health of calves ( Sun et al, 2013 ; Deng et al, 2021 ; Lucey et al, 2021 ), beef steers ( Colombo et al, 2021 ), or lactating dairy cows ( Sun et al, 2013 ; Souza et al, 2017 ; Oyebade et al, 2021 ). Even fewer reports in the literature evaluated the combination of different Bacillus spp., such as B. licheniformis and B. subtilis .…”

Section: Discussionmentioning

confidence: 99%

Effects of a Bacillus-based direct-fed microbial on in vitro nutrient digestibility of forage and high-starch concentrate substrates

Pan

Harper

Queiroz

et al. 2022

Translational Animal Science

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Two experiments evaluated the effects of a Bacillus-based direct-fed microbial on in vitro dry matter (DM) and neutral detergent fiber (NDF; Exp. 1), and starch (Exp. 2) digestibility of a variety of ruminant feedstuffs. In Exp. 1, ten forage sources were evaluated: ryegrass, alfalfa hay, leucaena, corn silage, spinifex, buffel grass, flinders grass, Mitchell grass, rhodes grass hay, and Queensland bluegrass. Experimental treatments were a Control, forages with no probiotic inoculation; CON) or forages sources inoculated with a mixture containing Bacillus licheniformis and B. subtilis (3.2 × 10 9 CFU/g; DFM). In vitro DM and NDF digestibility were evaluated at 24- and 48-hours post-treatment inoculation. Treatment × hour interactions were noted for IVDMD and IVNDFD (P ≤ 0.05). More specifically, DFM inoculation increased (P ≤ 0.03) IVDMD at 24 hours in four forages and increased 48-hour IVDMD (P ≤ 0.02) in alfalfa hay, ryegrass, leucaena, and Mitchell grass hay, but opposite results were observed for Queensland bluegrass (P < 0.01). Twenty-four and 48-hour IVNDFD increased following DFM inoculation (P ≤ 0.02) in five forage sources, but reduced for Queensland bluegrass (P < 0.01). When the forages were classified according to their quality, main treatment effects were detected for IVDMD (P ≤ 0.02) and IVNDFD (P < 0.01). In Exp. 2, five common cereal grains were evaluated [high-density barley (82 g/100 mL), low-density barley (69 g/100 mL), corn, sorghum, and wheat] under the same treatments as in Exp. 1. In vitro starch digestibility was evaluated at 6- and 12-hours following treatment inoculation. Treatment × hour interactions were observed for starch digestibility in 3 out of 5 concentrate sources (P ≤ 0.001). Inoculation of DFM yielded greater 24-hour starch digestibility for high-, low-density barley, and wheat (P ≤ 0.02), but also greater at 48 hours in wheat (P < 0.0001). Moreover, mean starch digestibility improved for corn and sorghum inoculated with DFM (P < 0.01). Using a Bacillus-based DFM (B. licheniformis and B. subtilis) improved mean in vitro DM and NDF digestibility of different forage sources of varying qualities (based on CP content). Similarly, in vitro starch digestibility was also greater following DFM inoculation, highlighting the potential of this probiotic to improve nutrient digestibility and utilization into the beef and dairy cattle herd.

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Section: Discussionmentioning

confidence: 99%

Effects of a Bacillus-based direct-fed microbial on in vitro nutrient digestibility of forage and high-starch concentrate substrates

Pan

Harper

Queiroz

et al. 2022

Translational Animal Science

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“…Mammeri et al identified the anti-cryptosporidial activities of chitosan, a natural polysaccharide present in YCW in in vitro and mouse studies [ 28 ]. In another study, yeast culture enriched with mannan-oligosaccharides were fed in milk to Holstein heifer calves enrolled at 4 to 12 h of age, and this led to the presence of fewer Escherichia coli and pathogenic E. coli compared with control calves [ 29 ].…”

Section: Discussionmentioning

confidence: 99%

Establishment of a Newborn Lamb Gut-Loop Model to Evaluate New Methods of Enteric Disease Control and Reduce Experimental Animal Use

Baillou

Kasal-Hoc

Barc

et al. 2021

Veterinary Sciences

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Enteric infectious diseases are not all well controlled, which leads to animal suffering and sometimes death in the most severe cases, in addition to economic losses for farmers. Typical symptoms of enteric infections include watery diarrhea, stomach cramps or pain, dehydration, nausea, vomiting, fever and weight loss. Evaluation of new control methods against enteric infections requires the use of many animals. We aimed to develop a new method for an initial in vivo screen of promising compounds against neonatal diseases such as cryptosporidiosis while limiting experimental animal use. We therefore adapted an in vivo method of multiple consecutive but independent intestinal loops to newborn lambs delivered by cesarean section, in which endotoxin responsiveness is retained. This new method allowed for the screening of natural yeast fractions for their ability to stimulate immune responses and to limit early Cryptosporidium parvum development. This model may also be used to investigate host–pathogen interactions and immune responses in a neonatal controlled environment.

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“…The antimicrobial activity of probiotics against the enteric pathogens suggests their utility as an effective biotherapeutic to prevent related gastrointestinal infections ( Prabhurajeshwar and Chandrakanth, 2019 ). Specifically these native probiotics support the intestinal epithelial barrier by enhancing the expression of barrier function components ( Rokana et al, 2016 ; Bron et al, 2017 ) and prevent the enteric infections in the host ( Lucey et al, 2021 ). Many of the known Lactobacillus probiotic strains produce metabolites, such as diacetyl, acetoin, hydrogen peroxide, and bacteriocins, which prevent the growth of pathogens and assist in defence mechanisms that are involved keeping infections at bay ( Osuntoki and Korie, 2010 ; Pyar and Peh, 2014 ).…”

Section: Impact Of Probiotic Microorganisms On Animals’ Welfarementioning

confidence: 99%

Impact of Probiotics on Dairy Production Efficiency

et al. 2022

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There has been growing interest on probiotics to enhance weight gain and disease resistance in young calves and to improve the milk yield in lactating animals by reducing the negative energy balance during the peak lactation period. While it has been well established that probiotics modulate the microbial community composition in the gastrointestinal tract, and a probiotic-mediated homeostasis in the rumen could improve feed conversation competence, volatile fatty acid production and nitrogen flow that enhances the milk composition as well as milk production, detailed changes on the molecular and metabolic level prompted by probiotic feed additives are still not understood. Moreover, as living biotherapeutic agents, probiotics have the potential to directly change the gene expression profile of animals by activating the signalling cascade in the host cells. Various direct and indirect components of probiotic approaches to improve the productivity of dairy animals are discussed in this review.

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Effects of mannan-oligosaccharide and Bacillus subtilis supplementation to preweaning Holstein dairy heifers on body weight gain, diarrhea, and shedding of fecal pathogens

Cited by 40 publications

References 46 publications

Effects of a Bacillus-based direct-fed microbial on in vitro nutrient digestibility of forage and high-starch concentrate substrates

Effects of a Bacillus-based direct-fed microbial on in vitro nutrient digestibility of forage and high-starch concentrate substrates

Establishment of a Newborn Lamb Gut-Loop Model to Evaluate New Methods of Enteric Disease Control and Reduce Experimental Animal Use

Impact of Probiotics on Dairy Production Efficiency

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