Evaluating two multistrain probiotics on growth performance,intestinal morphology,lipid oxidation and ileal microflora in chickens

An experiment was conducted to investigate the supplementation of two commercially available multistrain probiotics as an alternative to antibiotics on growth performance, intestinal morphology, lipid oxidation and ileal microflora in broiler chickens. A total of 280‐day‐old ROSS 308 mixed‐sex broiler chickens with an average initial body weight of 42 ± 0.5 g were randomly divided into four treatments with five replicate cages of 14 birds each cage in a completely randomized design and fed with the following diets for 42 day: (a) control (CON) (antibiotic‐free diet), (b) antibiotic (ANT) (CON + Avilamycin 150 g/ton feed), (c) probiotic A (CON + Protexin^® 150 g/ton feed) and (d) probiotic B (CON + Bio‐Poul^® 200 g/ton feed). The results showed the broilers fed the ANT diet had greater average daily gain than broilers fed the CON diet during day 1–14 (p < 0.05). At day 42, two birds were randomly selected per replicate for evaluation intestinal morphology, lipid oxidation and ileal microflora. birds fed diet supplemented with probiotic A and probiotic B increased villus height and goblet cells numbers in the jejunum and villus height to crypt depth ratio and villus height in the ileum as compared to birds fed CON diet (p < 0.05). The malondialdehyde value was reduced (p < 0.05) in the ANT, probiotic B and probiotic A groups compared with the CON group. The Lactobacillus population was increased and Clostridium spp. population decreased in the ileum of broilers fed diets containing the probiotic B and probiotic A compared with those fed CON diet (p < 0.05). The results from this study indicate that the probiotic A (Protexin^®) and probiotic B (Bio‐Poul^®) used in this trial may serve as alternatives to ANT.     

Effect of Bacillus subtilis (DSM 17299) on performance,digestibility, intestine morphology,and pH in broiler chickens

This study investigated the effect of supplementation of a Bacillus subtilis strain DSM 17299 on broilers, including evaluation of performance, nutrient digestibility, intestinal morphology, and content pH. The treatments also were evaluated for economic value based on performance and dietary costs. Performance was improved for probiotic treated birds for wk one through 5 post hatch, and economic evaluation at wk 6 demonstrated that the addition of the probiotic reduced production costs. Total tract digestibility of dry matter (DM), crude protein (CP), and apparent metabolizable energy were improved in probiotic supplemented broiler chickens. Addition of the probiotic increased the pH of the intestinal content. The relative weight and relative length of the duodenum decreased by probiotic supplementation. Overall, B. subtilis DSM 17299 resulted in an improvement in performance and a decrease in production costs when fed to broiler chickens. The increases in nutrient digestibility of birds fed the B. subtilis DSM 17299 correlate well with the increased performance noted over the same growing periods.     

Performance and intestinal microbiota of chickens receiving probiotic in the feed and submitted to antibiotic therapy

The purpose of this study was to verify the ability of a probiotic in the feed to maintain the stability of the gut microbiota in chickens after antibiotic therapy and its association with growth performance. One thousand six hundred twenty 1‐day‐old Cobb male were housed in floor pens (36 pens, 45 birds/pen) and were fed corn‐/soya bean meal‐based diets supplemented with or without probiotic (Bacillus subtilis) during the entire rearing phase. From 21 to 24 days of age (three consecutive days), the chickens were submitted to antibiotic therapy via drinking water (bacitracin and neomycin) in order to mimic a field treatment and induce dysbiosis. Growth performance was monitored until 42 days of age. At 2, 4 and 6 days after antibiotic therapy, three chickens from each pen were euthanized and the contents of the small intestine and caeca were collected and pooled. The trial was conducted with four treatments and nine replicates in a 2 × 2 factorial arrangement for performance characteristics (with and without probiotic × with and without antibiotic therapy); for the intestinal microbiota, it was in a 2 × 2 × 3 factorial arrangement (with and without probiotic × with and without antibiotic therapy × 2, 4 and 6 days after the antibiotic therapy) with three replicates per treatment. Terminal restriction length polymorphism (T‐RFLP) analysis showed that the structure of gut bacterial community was shaped by the intestinal segment and by the time after the antibiotic therapy. The number of 16S rDNAs copies in caecum contents decreased with time after the therapeutic treatment. The antibiotic therapy and dietary probiotic supplementation decreased richness and diversity indexes in the caecal contents. The improved performance observed in birds supplemented with probiotic may be related to changes promoted by the feed additive in the structure of the intestinal bacterial communities and phylogenetic groups. Antibiotic therapy modified the bacterial structure, but did not cause loss of broiler performance.     

Replacing corn with sorghum in the diet alters intestinal microbiota without altering chicken performance

Sorghum grain can be used to replace corn in broiler diets. However, the effects related to an abrupt change between these grains are not yet clear. The aim of this study was to evaluate the performance and intestinal health of broilers fed diets containing corn and/or sorghum during different periods of rearing. To accomplish this aim, 2100 male chicks were fed the following experimental diets: C100% (corn‐based diet); S100% (sorghum‐based diet); C:S50% (diet based on corn and sorghum 1:1); PC‐S (corn‐based diet in the pre‐starter phase and sorghum‐based diet in subsequent phases); and PS‐C (sorghum‐based diet in the pre‐starter phase and corn‐based diet in subsequent phases). The study was conducted with two simultaneous trials in a randomized block design as follows: a performance trial up to 40 days occurred in floor pens (n = 8), and the metabolism trial occurred in cages (n = 10). Performance, jejunal morphometry, number of goblet cells, apparent metabolizable energy (AME), apparent metabolizable energy corrected for nitrogen (AMEn) and the coefficient of apparent metabolizability of dry matter (CMDM) of the diets, and the intestinal microbiota of small intestine and caeca at 10 and 21 days of age (16S gene sequencing) were evaluated. The different experimental diets did not affect performance, jejunal epithelium, AME, AMEn or CMDM. However, the experimental diets altered the percentages of the genera Clostridium, Weissella, Bacillus and Alkaliphilus in the small intestine. In addition, the genera Lactobacillus and Desulfotomaculum in the caeca were altered. The age also affected the microbiota of the intestinal segments. In conclusion, feeding sorghum in place of corn as well as the grain change after the pre‐starter phase does not alter broiler performance. However, sorghum alters the intestinal microbiota, resulting in a lower percentage of Clostridium and a higher percentage of Lactobacillus in the small intestine and caeca, respectively.     

益生菌补充剂对断奶仔兔饲料效率、生长性能和微生物种群的影响

本研究旨在探讨单株或双株益生菌补充剂对断奶仔兔饲料效率、生长性能和微生物数量的影响。试验选择64只28 d断奶(公母各半)新西兰白兔,随机分为4组,每组4个重复,每个重复4只。对照组饲喂基础日粮,试验组分别在基础日粮中添加1×10^6 cfu/g枯草芽孢杆菌(BS组)、1×10^7 cfu/g乳酸菌(LA组)及0.5×106枯草芽孢杆菌+0.5×10^7 cfu/g乳酸菌(BL组)。结果显示:LA组在42 d时体重显著增加(P<0.05),BL组较对照组显著提高日增重和饲料转化率(P<0.05)。LA组和BL组的干物质、有机质、粗蛋白质、中性洗涤纤维、总能量消化率均显著高于对照组(P<0.05)。公兔回肠内芽孢杆菌和大肠杆菌数量均显著高于雌兔(P<0.05)。与对照组相比,BS组家兔肠道各节段的芽孢杆菌数量均高于对照组(P<0.05),而LA和BL组仔兔肠道乳酸杆菌数量显著高于对照组(P<0.05)。结论:日粮单独添加1×107 cfu/g乳杆菌或0.5×10^6 cfu/g枯草杆菌+0.5×10^7 cfu/g乳杆菌可以提高肠道有益菌群数量、营养物质消化率、盲肠发酵、饲料效率和生长性能。此外,仅添加乳杆菌的家兔肠道大肠菌群和粪便评分均有所下降。     

黄芩黄酮对肉仔鸡生长性能和肠道菌群的影响

试验旨在探讨不同添加水平黄芩黄酮对肉仔鸡生长性能和肠道菌群的影响。选择500只1日龄AA肉仔鸡,采用单因子设计随机分为5个处理,每个处理5个重复,每个重复20只鸡,对照组饲喂基础日粮,试验组在基础饲料基础上分别添加5、10、15、20 mg/kg黄芩黄酮,进行为期49 d的饲养试验。分别于第21、35、49天时称重,计算平均体重、日增重、料重比,于实验结束时采集肠道内容物,测定肠道微生物菌群数量。结果表明,各处理组平均体重较空白对照组均有所增加,其中10 mg/kg添加组最高(P>0.05),5 mg/kg添加组显著提高日采食量(P<0.05),对F/G和ADG影响不显著(P>0.05)。49日龄时,各试验组与对照组相比,大肠杆菌和沙门氏菌数量显著降低(P<0.05);乳酸杆菌(需氧)和双歧杆菌数量均高于对照组(P>0.05)。由此可知,日粮中添加适量黄芩黄酮在一定程度上可以促进肉仔鸡生长,改善肠道微生物菌群,其中添加10 mg/kg黄芩黄酮效果较好。     

Bacillus subtilis B21 and Bacillus licheniformis B26 improve intestinal health and performance of broiler chickens with Clostridium perfringens‐induced necrotic enteritis

This study investigated the influence of Bacillus‐based probiotics on performance and intestinal health in broiler challenged with Clostridium perfringens‐induced necrotic enteritis. One‐day‐old Arbor Acre (n = 480) were randomly assigned to four treatments with 10 cages of 12 birds: (a) basal diet negative control (NC), with no probiotics nor antibiotics formulated to contain 2,930 and 3,060 kcal/kg with 24.07 and 15.98% CP, for starter and finisher diet, respectively, (b) basal diet + enramycin (5 mg/kg), an antibiotic growth promoter (AGP); (c) basal diet + Bacillus subtilis B21 at 2 × 10⁹ CFU per g (BS); (d) basal diet + Bacillus licheniformis B26 at 2 × 10⁹ CFU per g (BL); growth performance, intestinal morphology, intestinal lesion scores, short‐chain fatty acids (SCFAs) and mucosal barrier tight junction's (TJ) mRNA expression were assessed. NC‐ and BL‐fed groups showed higher (p = 0.005) average daily feed intake from d1 to d21 than AGP and BS, whereas BS‐ and AGP‐fed groups showed higher average daily weight gain from d22 to d42 and d1 to d42 of age. Higher mortality rate of (12.5%) and lower of (5.5%) were recorded in AGP and NC fed‐groups respectively, lesion score was higher in BS and BL than in AGP, while no lesion was observed in NC group, results revealed higher duodenum and jejunum villus height to crypt depth (VH:CD) compared with NC and BS. Probiotics‐fed groups showed higher total (SCFAs), acetic and butyric acid concentrations at d21 post‐challenge (PC) than other groups. The expression of claudin‐1 was upregulated in duodenum (d7) PC and in jejunum (d7) and (d21) PC in BL group, while at d21 PC, the expression of occludens was higher in jejunum and ileum by AGP and BL. The present study indicated both BS and BL have some similarity with AGP in preventing or partially preventing NE effect in broilers.     

复合微生态制剂对肉仔鸡生长性能、肠道菌群和免疫功能的影响

为研究探讨肉仔鸡日粮中添加不同剂量的复合微生态制剂对肉仔鸡生长性能、肠道菌群和免疫功能的影响,以期为复合微生态制剂的临床应用提供参考依据,将150只AA白羽肉仔鸡随机分成5个处理组(对照组、抗生素组、复合微生态制剂Ⅰ组、复合微生态制剂Ⅱ组、复合微生态制剂Ⅲ组),对照组饲喂基础日粮,抗生素组在基础日粮中添加0.05%的肉鸡饲用金霉素,复合微生态制剂Ⅰ、Ⅱ和Ⅲ组分别在基础日粮中添加0.05%、0.1%、0.2%的复合微生态制剂,测定平均日增重、平均日采食量、料重比、大肠杆菌数、沙门氏菌数、双歧杆菌数、乳酸杆菌数、胸腺指数、法氏囊指数、IgG含量、IgA含量、IgM含量等指标。结果显示,与对照组相比,复合微生态制剂Ⅱ组、Ⅲ组可显著增加平均日采食量、平均日增重、乳酸杆菌数、双歧杆菌数、胸腺指数、脾脏指数、法氏囊指数、IgA含量和IgG含量(P<0.05),显著降低料重比、大肠杆菌和沙门菌数(P<0.05)。与抗生素组相比,复合微生态制剂Ⅱ组、Ⅲ组可显著增加乳酸杆菌数、双歧杆菌数、胸腺指数、脾脏指数、法氏囊指数、IgA含量和IgG含量(P<0.05),显著降低料重比、大肠杆菌和沙门菌数(P<0.05)。表明肉仔鸡饲料中添加0.1%、0.2%的复合微生态制剂可显著改善提高肉仔鸡的生长性能、肠道菌群和免疫功能,其在改善肠道菌群和免疫功能方面的作用效果显著优于抗生素。     

抗菌肽对断奶仔猪生长性能、养分消化率、肠道微生物含量及绒毛结构的影响

文章旨在研究日粮添加不同水平抗菌肽替代抗生素对断奶仔猪生长性能、养分消化率、肠道微生物含量及绒毛结构的影响。试验选择平均体重为(5.76±0.02)kg的21 d断奶的杜×长×大仔猪672头,根据个体大小随机分为4组,每组4个重复,每个重复42头。试验分为1～14 d和15～28 d两个阶段,对照组饲喂基础日粮+60 mg/kg盐霉素,抗菌肽组饲喂基础日粮+0、50或100 mg/kg抗菌肽。试验进行28 d。对照组较抗菌肽组显著提高了断奶仔猪28 d体重(P <0.05),1～14 d和1～28 d日增重(P <0.05),1～14 d、15～28 d、1～28 d采食量,显著降低了1～28 d料重比(P <0.05)。随着日粮抗菌肽添加水平的升高,28 d体重、1～14 d、15～28 d及1～28 d日增重显著升高(P <0.05)。对照组较抗菌肽组显著提高了断奶仔猪14和28 d干物质、14 d粗蛋白质表观消化系数(P <0.05)。对照组较抗菌肽组显著降低了14和28 d粪中大肠杆菌含量(P <0.05),且总厌氧菌、梭菌和大肠杆菌含量随抗菌肽添加水平的升高而显著降低(P <0.05);与抗菌肽组相比,对照组显著降低了回肠总厌氧菌含量(P <0.05)。饲喂对照组日粮的断奶仔猪较抗菌肽组显著降低了空肠隐窝深度(P <0.05),显著提高了空肠绒毛高度与隐窝深度的比值(P <0.05)。根据试验结果推断,日粮添加抗菌肽可以作为抗生素替代品,具有提高断奶仔猪生长性能、干物质和粗蛋白质的表观消化率、绒毛形态及降低粪中有害菌含量的作用。     

Effect of fermented blood cells on growth performance and intestinal characteristics of weaned piglets

The increase in feed costs has led feeder to replace protein source. Blood meal can be used in piglet diets instead of fish meal (FM). The objective of this study was to investigate the effect of fermented blood cells (FBCs) on the growth performance and intestinal health of weaned piglets. One hundred eighty 28‐day‐old piglets were assigned and were divided into 4 groups (9 L per groups and 5 pigs per litters) randomly. The piglets were fed one of four experimental diets, fish meal, blood cells (BCs), liquid‐state fermented blood cells (LFBCs) or solid‐state fermented blood cells (SFBCs) respectively. The dietary with LFBCs and SFBCs increased the average daily gain and feed intake (ADFI) and average daily gain (ADG) (p < .05). In duodenum, LFBC group increased the villous height (p < .05). The SFBC and LFBC group significantly increased the villous height (p < .05) in the jejunum. Fermented blood cells exhibit a positive regulatory function on the intestinal tract and modulate intestinal microflora. Compared with the fish meal group, the CAT, GSH‐PX and SOD activity, and MDA level was no significant differences in jejunum and plasma of weaned piglets (p > .05). LFBCs and SFBCs significantly increased the bifidobacteria and lactobacillus number in the caecum (p < .05). Dietary LFBCs increased the expression of ZO‐1 mRNA in the jejunal of weaned piglets (p < .05). In conclusion, dietary with fermented blood cells in weaned piglets had improved growth performance and intestinal health of weaned piglets.     

Fecal microbial diversity and putative function in captive western lowland gorillas (Gorilla gorilla gorilla), common chimpanzees (Pan troglodytes), Hamadryas baboons (Papio hamadryas) and binturongs (Arctictis binturong)

Microbial populations in the gastrointestinal tract contribute to host health and nutrition. Although gut microbial ecology is well studied in livestock and domestic animals, little is known of the endogenous populations inhabiting primates or carnivora. We characterized microbial populations in fecal cultures from gorillas (Gorilla gorilla gorilla), common chimpanzees (Pan troglodytes), Hamadryas baboons (Papio hamadryas) and binturongs (Arctictis binturong) to compare the microbiomes associated with different gastrointestinal morphologies and different omnivorous feeding strategies. Each species was fed a distinct standardized diet for 2 weeks prior to fecal collection. All diets were formulated to reflect the species' feeding strategies in situ. Fresh fecal samples were pooled within species and used to inoculate in vitro batch cultures. Acetate, propionate, butyrate and valerate were measured after 24 h of incubation. Eubacterial DNA was extracted from individual fecal samples, pooled, and the cpn60 gene region was amplified and then sequenced to identify the major eubacterial constituents associated with each host species. Short chain fatty acids (P < 0.001) and methane (P < 0.001) were significantly different across species. Eubacterial profiles were consistent with fermentation data and suggest an increase in diversity with dietary fiber.     

植物粉剂对肉鸡生长性能、肠道菌群数量和肌肉脂肪酸的影响

文章旨在评估植物粉剂(大蒜粉和石莲花粉)对1～42?d肉鸡生长性能、肠道菌群和肌肉脂肪酸组成的影响.试验选择平均初始体重为(48.33±0.47)g的1日龄商品肉仔鸡640只,随机分为4组,每组5个重复,每个重复32只.对照组饲喂基础日粮,药物组肉鸡饲喂基础日粮,但通过饮水补充2?mg/L维吉尼亚霉素水溶剂,大蒜粉组肉...     

Digestive Physiology and the Role of Microorganisms

The gastrointestinal tract contains within it a microenvironment of bacteria that influences the host animal in many ways. The microflora can metabolize several nutrients that the host cannot digest and converts these to end products (such as short-chain fatty acids), a process that has a direct impact on digestive physiology. The microbiota directs the assembly of the gut-associated lymphoid tissue, helps educate the immune system, affects the integrity of the intestinal mucosal barrier, modulates proliferation and differentiation of its epithelial lineages, regulates angiogenesis, modifies the activity of the enteric nervous system, and plays a key role in extracting and processing nutrients consumed in the diet. Despite these important effects, the mechanisms by which the gut microbial community influences host biology remain almost entirely unknown. Recent molecular-based investigations have confirmed the species diversity and metabolic complexity of gut microflora, although there is much work to be done to understand how they relate to each other as well as the host animal. It is almost a century ago that Eli Metchnikoff proposed the revolutionary idea to consume viable bacteria to promote health. Since that time, the area known as probiotics has made dramatic progress, particularly during the past 2 decades. The last 20 yr have also seen the emergence of a new, related area of study—prebiotics. Use of these 2 ideas—providing live nonpathogenic bacteria as well as substrates for their growth—have potential to help optimize the health of animals by manipulating the gastrointestinal tract in positive ways.     

苯甲酸和精油对肉鸡生长性能、抗氧化状态和肠道微生物群的影响

本研究开展了3个饲养试验,旨在探讨苯甲酸和精油单独或联合使用对肉鸡生长性能、肠道微生物含量及肝脏抗氧化性能的影响.试验1和2均选择1日龄肉鸡450只,分为3组,每组5个重复,每个重复30只.对照组均饲喂相同的基础日粮,试验1处理组肉鸡分别饲喂基础日粮添加1.5和3?g/kg苯甲酸,试验2处理组肉鸡分别饲喂日粮添加2和4...     

复合益生菌对育肥猪生长性能、肠绒毛形态及肝脏脂代谢的影响

本研究旨在评估日粮补充以枯草芽孢杆菌、乳酸菌和酵母菌组成的复合益生菌对育肥猪生长性能、小肠绒毛形态及肝脏脂代谢相关指标的影响.试验将208头体重接近的18周龄三元育肥猪随机分为2组,每组4个重复,每个重复26头.对照组育肥猪饲喂基础日粮,处理组育肥猪饲喂基础日粮+1.5?g/kg由乳酸菌、枯草芽孢杆菌和酵母菌组成的复合...     

The effect of dietary lysozyme with EDTA on growth performance and intestinal microbiota of broiler chickens in each period of the growth cycle

Lysozyme is a potential replacement for antibiotics in the poultry industry. Two trials were conducted using new or used litter to determine the effect of 100 ppm lysozyme in feed on growth performance and intestinal microbiota of broiler chickens in each period of the growth cycle. The new litter trial and used litter trial were each analyzed as a one-way analysis of variance with length of time in which 100 ppm lysozyme was fed to the birds as the main factor (no lysozyme d zero to 35; positive lysozyme d zero to 4; positive lysozyme d 5 to 14; positive lysozyme d 15 to 24; positive lysozyme d 25 to 35; positive lysozyme d zero to 35; positive virginiamycin d zero to 35). Effects of lysozyme were not detected under clean conditions (P > 0.05). When used litter was provided, growth performance was not improved by lysozyme (P > 0.05). However, feeding lysozyme to birds from d 5 to 14 and throughout the trial reduced the number of E. coli in the ileum compared with feeding virginiamycin (positive lysozyme d 5 to 14 and zero to 35, and virginiamycin d zero to 35: 1.7 × 10⁴ cfu g⁻¹, 1.9 × 10⁴ cfu g⁻¹ and 9.3 × 10⁴ cfu g⁻¹, respectively) to birds (P < 0.05). Dietary lysozyme at 100 ppm can change intestinal microbiota of broiler chickens.