Antimicrobial activity of butyrate glycerides toward Salmonella Typhimurium and Clostridium perfringens

The antimicrobial activities of n-butyric acid and its derivatives against Salmonella Typhimurium and Clostridium perfringens were studied. n-Butyric acid and its derivatives (monobutyrin and a mixture of mono-, di-, and tri-glycerides of butyric acid) were added at different concentrations (ranging from 250 to 7,000 mg/kg to a media inoculated with either Salmonella Typhimurium or C. perfringens. The antimicrobial activity of butyric acid against C. perfringens was measured at 2 bacterium concentrations and 2 inoculations involving ambient aerobic or anaerobic conditions. The most effective antimicrobial activity for Salmonella Typhimurium was observed with n-butyric acid, with 90% inhibition rate at a concentration of 1,500 mg/kg. Although minimal inhibition for Salmonella Typhimurium was observed with butyric acid glycerides, lipase addition to a mixture of mono-, di-, and triglycerides of butyric acid increased (P < 0.01) antimicrobial activity of these derivatives. Antimicrobial activity of butyric acid and its derivative against C. perfringens was higher when using a moderate initial inoculation concentration (10(5)) compared with a higher initial concentration (10(7)) of this bacterium. At a lower inoculation of C. perfringens (10(5)), >90% inhibition rate by all butyric acid glycerides was observed with prior aerobic inoculation at 2,000 mg/kg, whereas using anaerobic inoculation, only 50% monobutyrin maintained >90% inhibitory effect at 3,000 mg/kg. The antimicrobial effect of monobutyrin against C. perfringens was generally higher (P < 0.01) for 50% monobutyrin than for 100% monobutyrin. Either a mixture of butyric acid derivatives or 50% monobutyrin decreased (P < 0.01) C. perfringens in a media containing intestinal contents whereas only 50% monobutyrin decreased (P < 0.01) Salmonella Typhimurium within a media containing cecal contents from mature Leghorns. These results show that n-butyric acid and 50% monobutyrin could be used to control Salmonella Typhimurium or C. perfringens in poultry species.

Effect of dietary lutein and flax on performance, egg composition and liver status of laying hens

Lutein is considered a protective nutrient against age-related macular degeneration in humans. An experiment was designed to study the long-term effect of feeding lutein in combination with flaxseed on layer performance, egg parameters, and lutein deposition in eggs and tissues. Laying hens were fed diets with 0 or 10% flax supplemented with 0, 125 or 250 ppm lutein for 11 consecutive 28-d periods beginning at 18 wk of age. Early production was reduced (P < 0.01) by feeding diets with 10% flax and when supplemented with 250 ppm lutein. Diet treatments had no effect on feed intake, egg weight or eggshell deformation. Addition of lutein to the diets significantly (P < 0.01) increased yolk color, and lutein content in the egg, liver, and the preen gland. Egg lutein content increased (P < 0.01) from a basal level of 0.10 mg to 1.60 mg 60g-1 egg by addition of lutein to the diet. Liver fat was lower (P < 0.05) in hens fed 10% flaxseed. Liver hemorrhage score was dramatically reduced (P < 0.01) in birds fed lutein. Key words: egg composition, flaxseed, lutein, layers

Effect of pharmacological intakes of zinc and copper on growth performance, circulating cytokines and gut microbiota of newly weaned piglets challenged with coliform lipopolysaccharides

The effect of feeding pharmacological levels of zinc (Zn) and copper (Cu) to newly weaned piglets on growth performance, circulating cytokines levels and gut microbiota was investigated. One hundred eighty piglets [5.90 ± 0.18 kg body weight (BW); six pigs per pen] weaned at 16 to 19 d of age were fed diets containing 3000 ppm additional Zn, 250 ppm additional Cu or a control diet (150 ppm Zn, 15 ppm Cu) for 14 d post-weaning (weeks 1 and 2). Pigs were fed a control diet for an additional 2 wk. Pigs were injected intramuscularly on days 13 and 19 with either 75 μg kg-1 BW of coliform lipopolysaccharide (LPS) or an equivalent amount of saline. Blood samples were collected 3 h after LPS injection to measure plasma levels of cytokines and cortisol. Digesta of ileum and colon were collected from non-challenged pigs on days 14 and 28 to evaluate microbiota using conventional culturing methods and polymerase chain reaction and denaturing gradient gel electrophoresis (PCRDGGE) analysis of the 16S rRNA genes. There were no interactive effects of diet and LPS challenge on growth performance (P > 0.10). Compared with the control, high dietary Zn and Cu increased (P < 0.01) average daily gain (ADG) during weeks 1 (0.125, 0.091 vs. 0.074 kg; P < 0.05) and 2 (0.240, 0.270 vs. 0.155 kg; P < 0.01) only. LPS injection reduced ADG during weeks 2 and 4 (P < 0.01). Dietary treatment did not affect feed efficiency (P > 0.10). Challenging pigs with LPS reduced (P < 0.01) feed efficiency during week 2, but increased (P < 0.05) feed efficiency during week 3. There were no interactive effects between diet and LPS on plasma cytokines levels, except for cortisol (P < 0.05). Plasma levels of cytokines (interleukin-1β, interferon-γ, tumour necrosis factor-α) and cortisol increased (P < 0.01) in pigs challenged with LPS. The high levels of dietary Zn and Cu reduced (P < 0.05) the increases in plasma cortisol level in LPS-challenged pigs at days 9 and 19. There were no differences among the dietary treatments in counts of coliforms and lactobacillus in the digesta from ileum and colon (P > 0.10). PCR-DGGE analysis showed that high levels of dietary Zn and particularly Cu significantly reduced the diversity of ileal microbiota. The effect on microbiota diversity was reversible when dietary Zn and Cu were removed. Enhanced growth performance of the newly weaned piglets fed high dietary Zn and Cu appears mediated via changes in gut microbiota as well as a reduced cortisol response following an immune challenge. Key words: Piglets, zinc, copper, lipopolysaccharide, gut microbiota, cytokines

Effect of butyric acid on the performance and carcass yield of broiler chickens

Short-chain fatty acids such as butyrate are considered potential alternatives to antibiotic growth promoters. The efficacy of butyric acid on performance and carcass characteristics of broiler chickens was tested in two studies. The effect of dietary butyrate on the ability to withstand coccidial oocyte challenge also was investigated. In experiment 1, male broiler chickens were fed diets supplemented with 0 or 11 ppm virginiamycin or 0.2 or 0.4% butyric acid (as mono-, di-, and triglyceride). In experiment 2, broilers were fed bacitracin methylene disalicylate or 0.1 or 0.2% butyric acid. In another trial, birds vaccinated against coccidiosis were challenged with oocytes at 21 d and examined 6 d later. In experiment 1, diet treatments had no effect on body weight gain. Feed intake of the birds fed 0.4% butyric acid was decreased (P < 0.01) compared with birds fed the nonmedicated diet during the starter period, whereas birds fed 0.2% butyric acid had similar feed intake to the control birds. In experiment 2, diet treatments did not affect the performance of broiler chicks while carcass weight and breast meat yield increased (P < 0.01) in birds fed 0.2% butyric acid. With oocyte challenge, birds that had received butyric acid before challenge showed higher growth rate following the challenge compared with birds that received nonmedicated feed. Bacitracin decreased (P < 0.05%) duodenal villi crypt depth, whereas villus length was similar in birds fed butyric acid or the nonmedicated control diet. These results show that 0.2% butyric acid can help to maintain the performance and carcass quality of broilers, especially in vaccinated birds challenged with coccidiosis.

Impact of feeding blends of organic acids and herbal extracts on growth performance, gut microbiota and digestive function in newly weaned pigs

One hundred eighty newly weaned pigs were used to inves tigate effects of feeding organic acids and herbal extracts on growth performance, gut morphology and microbiota, and immune response in newly weaned pigs during a 4-wk period. There were five dietary treatments: control, Acid 1 (acetic, propionic, phosphoric and citric acid; 1.1% inclusion), Acid 2 (Acid 1 + 1.0% lactic acid), herbal extracts (0.75% inclusion; containing cinnamon, thyme and oregano extract), and antibiotic (110 ppm lincomycin). As compared to the control, pigs on antibiotic and Acid 2 showed higher (P < 0.05) ADG only during week 2 post-weaning, whereas pigs on herbal extract showed lower (P < 0.05) ADG only during week 3 post-weaning. Fecal coliform counts were lower (P < 0.08) in pigs on Acid 1 and 2 on day 4 post-weaning and in pigs on antibiotic and herbal extract on day 14 post-weaning. Fecal lactobacilli counts were lower (P < 0.05) in pigs on antibiotic on day 14 post-weaning. Based on PCR-DGGE, treatment influenced the composition of gut microbiota. The pH of the colon was lower (P < 0.05) in pigs on acid treatments and serum IgG was lower (P < 0.05) in pigs on antibiotic. Dietary treatment did not affect (P > 0.10) intestinal morphology. These results show that the inclusion of antibiotic in the diet reduced the proliferation of both potentially harmful coliform bacteria and potentially beneficial lactobacilli in the pig’s gut, while herbal extract and organic acids appeared to reduce the proliferation of coliform bacteria. Blends of organic acids can serve as an alternative to in-feed antibiotics during the first few weeks post-weaning for pigs. Key words: Piglet, organic acids, herb, microbiota, immune response, intestinal morphology

Effects of phytase supplementation on the performance, egg quality, and phosphorous excretion of laying hens fed different levels of dietary calcium and nonphytate phosphorous

An experiment employing a factorial arrangement of two levels (3.0 and 4.0%) of Ca, two levels (0.15 and 0.25%) of nonphytate phosphorus (NPP), and two levels (0 and 300 U/kg diet) of microbial phytase was carried out with 960 ISA-brown layers from 21 to 41 wk of age. There was a significant interaction between NPP level and phytase for egg production. High NPP level and phytase supplementation increased egg production only in the second 10-wk period (31 to 41 wk). High NPP and low Ca increased feed intake, and a significant interaction between levels of NPP and Ca was observed in the first 10 wk. High NPP improved feed efficiency only in the second 10-wk period. Low NPP improved egg specific gravity and eggshell thickness but decreased Haugh units in the first 10-wk period; high NPP decreased the percentage of broken and soft-shell eggs in the second period. Low Ca decreased egg specific gravity, eggshell strength, and eggshell thickness in both periods and increased Haugh units in the second 10-wk period. Phytase supplementation decreased the percentage of broken and soft-shell eggs. High NPP increased fiber availability but decreased Ca availability. High Ca decreased Ca availability, whereas phytase increased availability of dry matter, fiber, and P. High NPP increased retention of P and Fe but also increased excretion of P. High Ca decreased retention of Zn and Fe. Phytase supplementation increased P retention, resulting in decrease of P excretion. In conclusion, supplementation of microbial phytase at a level of 300 U per kg diet of laying hens can improve egg production, decrease broken and soft egg production rate, and P excretion. The effects of phytase supplementation are significantly modified by the level of Ca and NPP.

Efficacy of new bacterial phytase in poultry diets

Phytase produced by Escherichia coli was fed to broiler chicks fed graded levels of available phosphorus (0.25–45%). A positive control involved Natuphos® a fungal phytase commonly used in poultry nutrition. Feeding diets with only 0.25% available phosphorus from 1 to 13 d of age resulted in reduced feed intake and weight gain, with associated loss in tibia weight, tibia ash and tibia phosphorus content (P < 0.01). Adding 600 IU phytase kg−1 diet corrected these problems, and both sources were equally efficacious for most parameters studied. Key words: Phosphorus, phytase, chicken

Effect of phytase enzyme on dietary nitrogen-corrected apparent metabolizable energy and the ileal digestibility of nitrogen and amino acids in broiler chicks

The effect of phytase on the performance, AMEn, and the ileal digestibility of N and amino acids was investigated in a 15-d trial using day-old male broilers with diets that were low in Ca (0.9% for control and 0.79% for phytase treatment) and available P (AP; 0.45% for control and 0.35% for phytase treatment). The assayed dietary phytase activity of crumble diet was 1,149 phytase unit (FTU)/kg. Chromic oxide was added to the diets to estimate ileal digestibility of N and amino acid. Excreta were collected from Day 12 to 15 to estimate AMEn. Weight gain, feed intake, and feed:gain of chicks fed phytase using diets with low Ca and AP were comparable with those observed for chicks fed more normal levels of Ca and AP. The diet with supplemental phytase had a higher AMEn (P< or =0.01) compared with the control diet. Chicks fed phytase had higher digestibilities for Val, Ile, nonessential amino acids (P< or =0.05), and total amino acids (P< or =0.01).