Effect of Milk Fermented with Lactic Acid Bacteria on Diarrheal Incidence, Growth Performance and Microbiological and Blood Profiles of Newborn Dairy Calves

Maldonado, Natalia C.; Chiaraviglio, J.; Bru, Elena; Chazal, L. De; Santos, Viviana; Nader‐Macías, María Elena Fátima

doi:10.1007/s12602-017-9308-4

Cited by 39 publications

(24 citation statements)

References 48 publications

(40 reference statements)

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“…Similarly, improved hemoglobin (110.0 vs. 98.0 g/L) was observed at the end of the experiment on 20 ml direct oral fed microbes (Propionibacterium jensenii) in Holstein bull-calves (Adams et al, 2008). Contrary to the present study, Maldonado et al (2018) reported non-significantly lower hemoglobin (144 ± 13 vs. 147 ± 42 g/L) in calves fed milk fermented with lactic acid bacteria at 1 × 10 9 CFU/calf. Like present finding on enzyme feeding in calves, the feeding of Jersey x Kankrej lactating cows with live yeast and cocktail of enzymes (xylanase, phytase, cellulase, p-glucanase, pectinase, amylase, protease, a-galactosidase, P-galactosidase and lipase) and only cocktail of enzymes for the period of 24 weeks did not alter the haemoglobin level (Vahora, 2004), while Ghazanfar et al (2015) showed improved (p < 0.05) hemoglobin (13.26 ± 1.20 vs. 9.76 ± 0.55 g/dL) in dairy heifers fed dietary supplementation of yeast (Saccharomyces cerevisiae Yea-Sac 1026 ) at 5 g/day.…”

Section: Results a N D Discussioncontrasting

confidence: 67%

Effect of Fibrinolytic Microbes and Enzymes on Biochemical Blood Parameters in Crossbred Calves

Kapadiya

Shah

Patel

et al. 2019

IJVSBT

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Twenty crossbred (HF x Kankrej) calves were allotted randomly to five groups (each had one male and three female calves) almost with similar body weight (85.70±6.37 kg) and age (167.55±21.70 days). Experimental calves of the control group were offered hybrid napier untreated, and the other four groups were offered hybrid napier treated with (i) fungus- Aspergillus spp. (1×107 per g feed), (ii) fibrolytic bacteria- Escherichia spp. (106 CFU per g feed), (iii) xylanase (50 mL/kg having xylanase 1.2 IU/mL), and (iv) consortium of 1/3rd dose of fungus + bacteria + enzyme as treatments for 140 days. The blood samples were collected from each calf at a biweekly intervals in the EDTA vacuttee. Nutrients offered to crossbred calves were sufficient to satisfy the nutrients requirements. Bacteria fed calves had significantly higher (plessthan0.05) mean hemoglobin levels than control. Blood plasma glucose of calves in fibrolytic microbes and enzyme groups was statistically similar to control. Feeding of fungus, bacteria, enzyme, and consortium was without a significant effect on plasma total proteins.In comparison to control (7.53 mg/dL), the plasma phosphorus was significantly (plessthan0 0.05) higher in calves fed enzyme (7.87 ± 0.20 mg/dl) and lower in group fed fungus (7.13 mg/dL). In contrast, in bacteria (7.57 mg/dL) and consortium group (7.60 mg/dL) it was statistically similar to control. Plasma glutamic pyruvic transaminase concentration of crossbred calves was lower ( pless than 0.05) in enzyme and higher (p lessthan 0.05) in fungus, bacteria, and consortium groups than in control, while plasma glutamic oxaloacetate transaminase concentration in all groups was statistically similar. In conclusion, all blood parameters of different groups were within normal range and without adverse effect on the overall performance of calves.

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Section: Results a N D Discussioncontrasting

confidence: 67%

Effect of Fibrinolytic Microbes and Enzymes on Biochemical Blood Parameters in Crossbred Calves

Kapadiya

Shah

Patel

et al. 2019

IJVSBT

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“…In dairy industry, calf diarrhea has been causing considerable economic losses because of calf mortality, weight loss in surviving calves all over the world, including Hokkaido. Several probiotics have been used as preventive or supportive therapy for dairy cattle and neonatal calf for a long time, and previous reports indicated the bene t calf performance and health [14][15][16][17][18][19][20][21][22][23][24][25]. Fermented milk, an old probiotics for dairy cattle, provides several clinical bene ts for calf breeding, and has been widely used as economical and safe probiotics [26][27][28].…”

Section: Discussionmentioning

confidence: 99%

“…Fermented milk includes the rich amino acids required for calf growth, and has been used for many years in the dairy industry [26][27][28]. A recent report indicates that the fermented milk enhanced nutritional parameters such as height, weight, and body performance [24]. In addition, the feeding of fermented milk reduced in diarrhea mobility and mortality [24].…”

Section: Discussionmentioning

confidence: 99%

“…However, the use of probiotics as a supportive therapy in veterinary eld is still limited and incredible because the e cacies of probiotics vary and are inconsistent. Indeed, the immunostimulation method using probiotics such as lactic acid bacteria (LAB) has been applied for a long time in the eld of animal husbandry [11,12], but its effect up to the prevention of infectious diseases is inevitable. In addition, although a test of administration of fermented milk to calves using fresh milk has been reported, in this case, coliform also grows at the same time as useful lactic acid bacteria, and possibly causes severe diarrhea.…”

Section: Introductionmentioning

confidence: 99%

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Direct evidence of preventive effect of severe diarrhea in calf by milk replacer-based probiotic feeding

Kayasaki¹,

Okagawa²,

Konnai³

et al. 2020

Preprint

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Background Diarrhea is one of the major causes of death in calves directly linked to economic loss in cattle industry. Fermented milk has been widely used for calf feeding to reduce the diarrhea in clinical settings. However, the fermentation of raw milk has many difficulties, such as unstable fermentation due to large variances of nutrient composition in raw milk and contamination with coliform. Practical use of fermented milk replacer (FMR) has a strong potential to overcome these difficulties. However, the clinical efficacy of FMR on calf diarrhea is still unclear. Result In this study, we developed a stable condition of fermentation for FMR and verified the preventive effects of FMR feeding on calf diarrhea by an experimental infection model of bovine rotavirus (BRV) in newborn calf and a field study in dairy farms with calf diarrhea. Additionally, the clinical efficacy of lactic acid bacteria (LAB)-supplemented milk replacer (LAB-MR) was also evaluated in the experimental infection model. In the experimental infection model, control calves fed a milk replacer showed severe watery diarrhea after BRV challenge. Two out of three control calves were died after rapid decline of milk intake. In contrast, calves fed FMR or high-concentrated LAB-MR showed diarrhea, but the water content of feces was low and stable. In addition, the amount of milk intake decreased temporarily, but recovered immediately in the FMR- or LAB-MR-fed calves. Histopathological analysis of intestinal tracts revealed mucosal lesions were slighter in the FMR- or LAB-MR-fed calves than in the control calves. In a field study of FMR feeding in dairy farms with mixed infection with BRV and Cryptosporidium parvum, the incidence of enteritis and mortality of calf by enteritis were significantly reduced by the allocation of FMR. Additionally, the FMR-fed calves exhibited shorter duration of treatment, fewer consultations, and lower cost of medical care for enteritis compared with control calves. Conclusion These results suggest that feeding of milk replacer-based probiotics to calves reduces severity of diarrhea and tissue damage to intestinal tracts caused by BRV infection and provides significant clinical benefits for the prevention and treatment of calf diarrhea.

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“…To our knowledge, no study has evaluated the effects of dietary supplementation of live yeast on mastitis and milk microorganism based on the high-throughput sequencing, a new method that provide a more complete relative qualification of micro community composition. Lactic acid bacteria (LAB) is also shown as potential probiotics for therapeutic use against endometrial inflammation and mastitis and prevention for diarrhea in calf, which is capable for the ability to strengthen systemic immune function (Genis et al 2017;Bouchard et al 2015;Maldonado et al 2017). Intramammary LAB incubation increased the amounts of IgG isotypes in blood and milk, as well as lymphocyte proliferation and negative the major bovine mastitis pathogens on dry-off cows, which suggests restored balance in microbiota of the mammary gland and improved systemic immune function (Pellegrino et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Impact of yeast and lactic acid bacteria on mastitis and milk microbiota composition of dairy cows

et al. 2020

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This experiment was conducted to evaluate the impact of yeast and lactic acid bacteria (LAB) on mastitis and milk microbiota composition of dairy cows. Thirty lactating Holstein cows with similar parity, days in milk were randomly assigned to five treatments, including: (1) Health cows with milk SCC < 500,000 cells/mL, no clinical signs of mastitis were found, fed basal total mixed ration (TMR) without supplementation (H); (2) Mastitis cows with milk SCC > 500,000 cells/mL, fed basal TMR without supplementation (M); (3) Mastitis cows fed basal TMR supplemented with 8 g day −1 yeast (M + Y); (4) Mastitis cows fed basal TMR supplemented with 8 g day −1 LAB (M + L); (5) Mastitis cows (milk SCC > 500,000 cells/mL) fed basal TMR supplemented with 4 g day −1 yeast and 4 g day −1 LAB (M + Y + L). Blood and milk sample were collected at day 0, day 20 and day 40. The results showed efficacy of probiotic: On day 20 and day 40, milk SCC in H, M + Y, M + L, M + Y + L was significantly lower than that of M (P < 0.05). Milk concentration of TNF-α, IL-6 and IL-1β in M + Y + L were significantly reduced compared with that of M on day 40 (P < 0.05). Milk Myeloperoxidase (MPO) and N-Acetyl-β-d-Glucosaminidase (NAG) activity of M + Y, M + L, M + L + Y were lower than that of M on day 40 (P < 0.05). At genus level, Staphylococcus, Chryseobacterium and Lactococcus were dominant. Supplementation of LAB decreased abundance of Enterococcus and Streptococcus, identified as mastitis-causing pathogen. The results suggested the potential of LAB to prevent mastitis by relieving mammary gland inflammation and regulating milk microorganisms.

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Effect of Milk Fermented with Lactic Acid Bacteria on Diarrheal Incidence, Growth Performance and Microbiological and Blood Profiles of Newborn Dairy Calves

Cited by 39 publications

References 48 publications

Effect of Fibrinolytic Microbes and Enzymes on Biochemical Blood Parameters in Crossbred Calves

Effect of Fibrinolytic Microbes and Enzymes on Biochemical Blood Parameters in Crossbred Calves

Direct evidence of preventive effect of severe diarrhea in calf by milk replacer-based probiotic feeding

Impact of yeast and lactic acid bacteria on mastitis and milk microbiota composition of dairy cows

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