Consumer demands for chickens raised without the use of antibiotics, legislative restrictions, and trade opportunities have encouraged many integrators within the poultry industry to raise poultry ...without antibiotic growth promoters (AGPs) and ionophores. However, with the removal of AGPs and ionophores, the incidence of enteric diseases such as coccidiosis and necrotic enteritis (NE), caused by Eimeria spp. and Clostridium perfringens, respectively, have increased, thereby gaining the attention of the poultry industry to look for alternative strategies to improve bird's health. Coccidiosis and NE are 2 major enteric disease concerns in broilers because of their association with decreased performance, increased mortality, reduced welfare, and a higher risk of poultry product contamination. Necrotic enteritis is often induced after a coccidiosis infection and any factor that causes stress, reduces immunity, and disturbs intestinal ecosystem. Nutritional mitigation strategies have been widely used to reduce such enteric diseases with a greater focus on balanced gut health. Some of the nutritional interventions that have shown potential for improving gut health while reducing overall disease include the use of probiotics, prebiotics, organic acids, essential oils, vaccination, and natural phytochemical extracts in poultry diets. A better understanding of the relationship between nutritional strategies, coccidiosis, and NE is crucial to improve gut health in the absence of AGPs in poultry production. This review will provide information and updates pertaining to current research focusing on several nutritional strategies that have helped to alleviate coccidiosis and NE, by modulating performance and gut health aspects.
Foodborne pathogens, such as Salmonella are problematic in food processing environments, and understanding the means of persistence is critical in the development of effective control measures. This ...study determined the antimicrobial tolerance of Salmonella isolates from the processing environment and characterized their biofilm production and antibiotic resistance. Twenty-five Salmonella isolates were previously recovered from poultry processing equipment in commercial production facilities after sanitation. The minimum inhibitory concentration of 2 antimicrobials; chlorine and quaternary ammonium compounds that were frequently used for sanitation was determined for these isolates using the Clinical and Laboratory Standards Institute guidelines. Biofilm forming ability was assessed using the crystal violet assay and antibiotic susceptibility was also determined. These isolates were further characterized based on their genes that were responsible for biofilm formation and resistance to sanitizers and antibiotics. Minimum inhibitory concentration values between 500 and 1,000 parts per million for chlorine, or 3 to 25 parts per million for quaternary ammonium compounds were observed amongst these Salmonella isolates. These isolates possessed strong (24%), moderate (28%), and weak (48%) biofilm forming ability. All isolates were resistant to multiple antibiotics, and 64% exhibited resistance to aminoglycosides and β-lactams. Molecular characterization showed that the isolates possessed specific genes for biofilm formation, sanitizer tolerance, and antibiotic resistance. These results suggest that Salmonella isolates with low tolerance to sanitizers may remain on surfaces because of their strong biofilm forming ability.
The main objective of this study was to examine the efficacy of USDA approved antimicrobials in reducing Salmonella Heidelberg (S. H.) and Campylobacter jejuni (C. j.) in ground chicken frames and to ...determine the treatment effects on total aerobic counts and meat color. Six antimicrobials (0.1% peracetic acid PAA, 0.6% cetylpyridinium chloride CPC, 0.005% sodium hypochlorite, 1.5% acidified lactic acid ALA, 0.3% propionic acid, and 0.1% lauric arginate LAE) applied as dip treatments were evaluated in their efficacy in reducing S. Heidelberg and C. jejuni. Fresh chicken frames were spot inoculated with nalidixic acid resistant S. H. and C. j. (ATCC 33291) to achieve a recovery level of ca. 3 log CFU/g in the ground product. Frames were dipped for 10 s in each antimicrobial solution and each treatment was replicated on 3 frames. Three separate replications were conducted for this experiment. Frames were blended, and ground samples similar to mechanically separated chicken (MSC) were obtained and stored at 4°C for 24 hours. Samples were analyzed after grinding on d zero (2 h) and d one (24 h) to determine reduction in S. H. and C. j. counts in MSC. PAA and LAE treatments had the highest reductions on Salmonella counts (P ≤ 0.05), both treatments resulting in 0.9 log CFU/g reduction as compared to control on d zero. PAA and CPC reduced Salmonella counts by 1.4 and 0.9 log CFU/g, respectively, on d one; PAA, propionic acid, ALA, and LAE resulted in one log CFU/g reductions of C. j. as compared to control on d one. There was no significant difference among the treatments in their ability to reduce C. j. on d one. The treatments had no effect on total aerobic counts. The findings from the study indicate that PAA, CPC, and LAE can reduce S. H. in ground chicken frames, whereas all the antimicrobials tested in the study, except chlorine, have the ability to reduce C. j. in ground chicken frames, a product similar to commercial MSC.
Effects of commercial antimicrobials and the individual and combinational use of commercial prebiotics and probiotics in feed from d zero to 41 on the growth performance, small intestine size, ...jejunal morphology, and ileal resident bacteria population of broiler chickens were determined. A total of 1,040 one-day-old male Ross × Ross 708 broilers were randomly distributed to 80 floor pens (5 treatments, 16 replications per treatment, 13 chicks per pen). Five dietary treatments were employed: 1) a corn soybean-meal basal diet (served as a negative control diet, NC); 2) a basal diet supplemented with a commercial prebiotic product (Pre); 3) a basal diet supplemented with a probiotic product containing Bacillus subtilis spores (Pro); 4) a basal diet supplemented with both prebiotic and probiotic products (Pre + Pro); and 5) a basal diet supplemented with commercial antimicrobials (served as a positive control diet, PC). At d 14, Pre diets improved the relative level of Lactobacillus in ileal mucosa as compared to NC, Pro, or PC diets (P = 0.045) without improving broiler BW. Broilers fed PC diets exhibited the highest BW gain from d 15 to 27, the lowest duodenum, jejunum, and ileum relative weights as percentage of BW at d 27, and the highest breast weight at d 42 (P = 0.026, 0.035, 0.002, 0.025, and 0.035, respectively). Broilers fed Pro or Pre + Pro diets exhibited higher BW gain from d 28 to 41 (P = 0.005) and higher overall BW gain from d zero to 41 (P = 0.039) than those fed other diets. Dietary treatments did not affect jejunal morphology or ileal resident Escherichia coli level at any age. From our results, including spores of Bacillus subtilis in feed may stimulate growth at a later age and may facilitate broilers in reaching their target weight sooner. Therefore, probiotics are recommended as potential alternatives to antimicrobials in chicken diets, especially in grower and finisher feed.
The prostate-specific membrane antigen (PSMA) is a molecular target whose use has resulted in some of the most productive work toward imaging and treating prostate cancer over the past two decades. A ...wide variety of imaging agents extending from intact antibodies to low-molecular-weight compounds permeate the literature. In parallel there is a rapidly expanding pool of antibody-drug conjugates, radiopharmaceutical therapeutics, small-molecule drug conjugates, theranostics and nanomedicines targeting PSMA. Such productivity is motivated by the abundant expression of PSMA on the surface of prostate cancer cells and within the neovasculature of other solid tumors, with limited expression in most normal tissues. Animating the field is a variety of small-molecule scaffolds upon which the radionuclides, drugs, MR-detectable species and nanoparticles can be placed with relative ease. Among those, the urea-based agents have been most extensively leveraged, with expanding clinical use for detection and more recently for radiopharmaceutical therapy of prostate cancer, with surprisingly little toxicity. PSMA imaging of other cancers is also appearing in the clinical literature, and may overtake FDG for certain indications. Targeting PSMA may provide a viable alternative or first-line approach to managing prostate and other cancers.
Human campylobacteriosis, an infection caused by the bacterium Campylobacter, is a major issue in the United States food system, especially for poultry products. According to the Center for Disease ...Control, campylobacterosis is estimated to affect over 2.4 million people annually. Campylobacter jejuni and Campylobacter coli are 2 species responsible for the majority of campylobacterosis infections. Phenotypic and genotypic typing methods are often used to discriminate between bacteria at the species and subspecies level and are often used to identify pathogenic organisms, such as C. jejuni and C. coli. This review describes the design as well as advantages and disadvantages for 3 current phenotypic techniques (biotyping, serotyping, and multilocus enzyme electrophoresis) and 6 genotypic techniques (multilocus sequence typing, PCR, pulse-field gel electrophoresis, ribotyping, flagellin typing, and amplified fragment length polymorphisms) for typing pathogenic Campylobacter spp.
Probiotics can improve broiler performance and reduce pathogens. Because the hatchery can be a source of contamination, delivering probiotics to the embryo before hatch is desirable. To date, ...probiotics have primarily been injected into eggs manually. Therefore, the objective of this study was to deliver various probiotic bacteria into broiler hatching eggs using an automated commercial in ovo injection system to evaluate hatchability of fertile eggs (HF). Three separate experiments were conducted using Lactobacillus acidophilus, Bacillus subtilis, or Bifidobacterium animalis. In each experiment, 7 treatments (non-injected control; dry punch control; diluent-injected control; and injections of 103 cfu, 104 cfu, 105 cfu, or 106 cfu of bacteria/50 μL of diluent) were evaluated using 10 replicates per treatment. For each experiment, 2,490 eggs were obtained from a commercial hatchery. Eggs were incubated under standard incubation conditions. At 10 d of incubation (doi), eggs were candled, and infertile eggs were removed. On 18 doi, all eggs were injected with the appropriate treatment using an automated in ovo injection system. Once all eggs were injected, they were transferred to hatching baskets and placed into the hatcher. On 21 doi, chicks were removed from the hatcher, counted, and weighed. Hatch residue analysis was conducted to determine infertile, early dead, mid dead, late dead, pipped, cracked, contaminated, and cull chick statuses of all unhatched eggs. Injecting L. acidophilus, even at a concentration as high as 106 cfu/50 μL, did not impact hatch residue analysis (P > 0.05). However, HF was significantly less for eggs treated with B. subtilis than for control eggs (P < 0.0001). For the non-injected control, HF was 91%, but as concentration of B. subtilis increased, HF decreased to as low as 1.67% for the 105 cfu treatment. Late deads, pipped, and contaminated egg percentages were higher, and chick BW was lower for B. subtilis treatment groups compared to controls. In conclusion, L. acidophilus and B. animalis but not B. subtilis, appear to be suitable candidates for in ovo injection as probiotics.
Male fertility is often evaluated by measuring sperm parameters, including concentration, viability, and motility. This is important because after copulation occurs, sperm must overcome many barriers ...in the female reproductive tract to fertilize the ovum. In mammalian species, sperm have been shown to have reduced motility when bacteria are present. In male broiler breeders, bacteria have been associated with spermatozoa, but their effect on motility has not been investigated. The sperm quality index is a modern rapid method of evaluating avian sperm motility. Therefore, the objective of this study was to use the sperm quality index to determine if broiler breeder sperm motility is reduced when semen is exposed to various bacteria. In this experiment, semen was collected from 20 broiler breeders to obtain a pooled neat semen sample. Six different intestinal bacteria, Salmonella enterica, Escherichia coli, Campylobacter jejuni, Clostridium bifermentans, Lactobacillus acidophilus, and Bifidobacterium animalis were cultured overnight. For each bacterium, 50 µL of semen was diluted in 450 µL of saline, sterile broth, or the overnight culture, creating 3 treatments. The experiment was repeated twice. In each treatment, 3 replicates were evaluated at 0 and 10 min postinoculation, creating a completely randomized design with a split plot over time. Also, the pH was measured for each treatment at 0 and 10 min. The results indicated that all broths containing bacteria immediately reduced broiler breeder sperm motility when compared with the controls (P < 0.0001), but broths containing Bifidobacterium or Lactobacillus virtually made sperm immotile. Although broth containing Salmonella, Campylobacter, and Bifidobacterium immediately reduced sperm motility, the reduction did not change over time. Broths containing E. coli, Clostridium, and Lactobacillus reduced sperm motility immediately, but over time motility continued to decrease. However, pH was increased when semen was exposed to the E. coli and Campylobacter treatment, but when semen was exposed to Bifidobacterium and Lactobacillus treatments, pH was reduced. In conclusion, the results indicate that bacteria can reduce broiler breeder sperm motility upon exposure.
The turkey industry relies totally on artificial insemination to continue and improve production. If something compromises the insemination process, such as contaminated semen, it becomes a ...detrimental loss to the industry. Bacteria have been found in broiler breeder males to reduce sperm motility. The Sperm Quality Index (SQI) is a quick method to determine avian sperm motility using the sperm quality analyzer (SQA). Therefore, the objective of this study was to determine if bacteria have an effect on turkey sperm motility using the SQA. For the experiment, one mL of pooled neat semen was collected from Beltsville Small White Turkey toms. Six intestinal bacteria, Bifidobacterium animalis, Campylobacter jejuni, Clostridium bifermentans, Escherichia coli, Lactobacillus acidophilus, and Salmonella enterica were grown overnight. For each bacterium, 4 treatments were made that consisted of exposing pooled semen to either saline, sterile broth, an overnight culture of each individual bacterium, or a centrifuged pellet of each bacterium re-suspended in saline. The experiment was repeated 3 times. Once the semen was exposed to the respective treatment, a portion was pulled into a capillary tube and placed into the SQA to obtain the SQI. Each treatment was evaluated at zero, 10, and 20 min creating a completely randomized design with a split plot over time. A pH reading also was taken at each time point. The results indicated that all broths containing bacteria immediately reduced turkey sperm motility. Sperm became practically immotile in overnight cultures of Clostridium, Bifidobacterium, or Lactobacillus However, there was a time by treatment interaction in the SQI for Campylobacter, Clostridium, E. coli, Salmonella, and Lactobacillus The pH of semen decreased upon exposure to Bifidobacterium and Lactobacillus No difference in pH was found when semen was exposed to E. coli, Campylobacter, Salmonella, or Clostridium treatments. In conclusion, the results reveal when turkey semen is exposed to different bacteria, sperm motility is immediately reduced, which could be possible from bacterial attachment or bacterial by-products providing an undesirable environment for sperm.
Lauric arginate (LAE) has been found to be effective against various foodborne pathogens. In this study, the antimicrobial efficacy of LAE against Salmonella and mesophilic organisms was evaluated in ...fresh, skinless, boneless, uncooked chicken breast fillets. The effect of LAE treatments on pH and color of breast fillets was also assessed. Chicken breast fillets were inoculated with a 4-strain Salmonella cocktail (Salmonella Enteritidis ATCC 4931, Salmonella Heidelberg ATCC 8326, Salmonella Kentucky ATCC 9263, and Salmonella Typhimurium ATCC 14028) and then treated with sterile dionized water (positive control) and 200 ppm and 400 ppm of LAE. The chicken breast fillets were stored at 4 ± 1°C and analyzed on d 0, 1, 3, 5, and 7 for Salmonella, total aerobes, color, and pH. The fillets destined for color analysis were not inoculated with Salmonella cocktail and stored under conditions simulating the retail display. The fillets treated with 400 ppm LAE had lower (P < 0.05) Salmonella counts compared with the positive control from d 0 through d 7 of storage except on d 3, when no effect of LAE was observed. Treating fillets with 200 ppm of LAE caused a significant reduction in Salmonella counts (P < 0.1) on d 0, 1, and 7. Reductions in Salmonella spp. were 0.7 log cfu/g and 0.7 to 1.0 log cfu/g for 200 and 400 ppm treatments, respectively. Lauric arginate did not exhibit any treatment effect on the growth of mesophilic microorganisms, pH, and color of chicken breast fillets (P > 0.05) when applied at 200 and 400 ppm concentrations. These results indicate that surface application of LAE in chicken breast fillets significantly reduces Salmonella during refrigerated aerobic storage without negatively affecting the color of chicken breast fillets.
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