R.P. Kwakkel

Effect of a Chinese herb medicine formulation, as an alternative for antibiotics, on performance of broilers

1. A total of 720 female broiler chicks was used to test the effects of 4 dietary concentrations of a Chinese herbal medicine (CHM) formulation (0·25, 0·5, 1 and 2 g/kg), as an alternative for virginiamycin (VRG), on growth performance in broilers. 2. A total of 72 birds from non-supplemented, VRG and 0·5 g/kg CHM groups was selected and killed and the relative weights of the intestinal segments were assessed. 3. The CHM dietary treatments produced increased body weight gain at 7 to 21 d of age but not at 21 to 28 d of age compared with the non-supplemented and VRG groups. The CHM groups had a higher feed intake and a higher feed conversion ratio (FCR) than the VRG group between 21 and 28 d. 4. The dissection results showed that the liver colour of the birds in the CHM group varied less between animals than that of the VRG and the non-supplemented groups. Neither CHM nor VRG had any significant effects on either liver or intestinal tract weights. 5. It was concluded that the birds of the CHM group had better growth performance from d 7 to 21 but not thereafter. Further experiments are needed to elucidate the mechanisms underlying enhanced growth performance by CHM in broilers.

Effects of mushroom and herb polysaccharides, as alternatives for an antibiotic, on growth performance of broilers

1. This in vivo trial was conducted to study the effects of polysaccharide extracts of two mushrooms, Lentinus edodes (LenE) and Tremella fuciformis (TreE), and a herb, Astragalus membranaceus (AstE) on growth performance, and the weights of organs and the gastrointestinal tract (GIT) of broiler chickens. 2. Three extracts (LenE, TreE and AstE) were supplemented at inclusion rates of 0·5, 1, 2, 3 and 4 g/kg from 7 to 14 d of age and compared with an antibiotic treatment group (20 mg/kg, virginiamycin (VRG) as well as a group of non-supplemented birds. 3. Body weight (BW) gain, feed intake and feed conversion ratio (FCR) of the extract-supplemented groups were not significantly different from those of the antibiotic group. Significant effects of type of extract and concentration on growth performance were found from 7 to 28 d of age. Generally, birds fed with LenE showed higher BW gain and lower FCR from 7 to 28 d of age than those fed with TreE and AstE and 2 g/kg LenE was considered the optimal inclusion rate for enhanced broiler growth. However, the extracts had no significant effect on the relative weights of organs and GIT compared with the antibiotic group. 4. The birds fed the extracts showed better growth performance than the non-supplemented birds, but were not significantly different from those fed VRG. Of the three extracts, LenE appeared to be a potential growth promoter. Future studies are needed to investigate whether the extracts can be used as alternatives for antibiotic growth promoters in challenged birds, and to elucidate the mechanisms for potentially enhanced growth performance in poultry.

Immunoactive, medicinal properties of mushroom and herb polysaccharides and their potential use in chicken diets

Chinese natural medicinal products as feed supplements have been used as growth and health promoters in farm animals in China for centuries. A current estimation of the number of Chinese natural medicines ranges between 6,000 and 8,000, of which less than 5% has immuno-active properties. Most of these medicinal products originate from plants. Polysaccharides are considered to be the most important components, which may act as immune enhancers or immuno-modulators. The relationship between polysaccharide structure and bio-activity is, however, not well understood. In this review, immune activities of the polysaccharides from two mushrooms, Lentinus edodes and Tremella fuciformis, and a herb, Astragalus membranaceus radix, are reported, based on studies in chickens, mice, rats and humans. It can be concluded from these studies that polysaccharides derived from these products can play important roles in: (1) stimulating the growth of immune organs such as spleen, thymus and bursa; (2) increasing the number and activities of many interdependent cell types such as T, B lymphocytes, macrophages, natural killer (NK) cells and lymphokine-activated killer (LAK) cells; (3) enhancing T-cell mediated immune response, such as an increased rate of T-lymphocyte transformation and proliferation; (4) enhancing humoral immune response, such as spleen and serum antibody production, the number of haemolytic plague forming cells (PFC) and haemolysin production and (5) inducing secretion and production of cytokines and complements of T-cells and NK cells. Todays poultry producers are confronted by numerous prophylactic techniques to prevent diseases. The immuno-active polysaccharides from mushrooms and herbs might be good candidates as health promoting feed additives in poultry diets. Further studies are needed to investigate the effects of such bioactive components to improve productive performance in chicken and to elucidate the possible modes of action related to the gut ecosystem and the immune response.

Coccidiosis Immunization: Effects of Mushroom and Herb Polysaccharides on Immune Responses of Chickens Infected with Eimeria tenella

Abstract An experiment was conducted to investigate the effects of polysaccharide extracts (E) of two mushrooms, Lentinus edodes (LenE) and Tremella fuciformis (TreE), and an herb, Astragalus membranaceus (AstE), on the immune responses of chickens infected with Eimeria tenella. A total of 180 broiler chickens were assigned to nine groups: three groups were fed with each of the extracts (LenE, TreE, and AstE), three groups were fed with the extracts and immunized with live oocyst vaccine (LenE+V, TreE+V, and AstE+V), a group was immunized with the vaccine only, and there were two controls (E. tenella–infected and noninfected groups). The oocyst vaccine was given at 4 days of age, and the extracts (1 g/kg of the diet) were supplemented from 8 to 14 days of age. At 18 days of age, all birds except those in the noninfected group were infected with 9 × 104 sporulated oocysts. The results showed that at 7 days postinfection (p.i.), birds fed the extracts without vaccination had lower body weight (BW) gain than those given the vaccine only. However, the extracts in conjunction with the vaccine significantly enhanced BW gain of the infected chickens compared with the vaccine group. Of the three extracts, LenE and TreE showed a better growth-promoting effect. The extracts largely increased oocyst excretion of droppings during the primary response postvaccination. The cecal peak oocyst output and lesion scores measured at 7 days p.i. were higher in the groups fed the extracts than in the group immunized with the vaccine only, whereas those of the groups fed with the extracts and immunized with the vaccine were not significantly different from the vaccine group. Of the three extracts, both LenE- and AstE-fed groups showed lower cecal oocyst output. Thus, as compared with the extracts, the live, attenuated vaccine showed better results with significantly increased immune response in coccidial infected birds. The polysaccharide extracts may prove useful against avian coccidiosis, and, particularly when they are used in conjunction with vaccine, they have shown preliminary promise against the experimental coccidial infection.

Heat stress and feeding strategies in meat- type chickens

Heat stress can induce hyperthermia in poultry. A reduction in heat load can be achieved by increasing the possibilities for dissipation, decreasing the level of heat production or by changing the thermal production pattern within a day. Strategies to reduce the negative effects of heat stress can be based on a specific feeding strategy, such as restricted feeding. Feed that is offered long enough before a hot period can ameliorate the harmful effects of high temperature. Another strategy may be to use choice feeding from different feed ingredients, rich in protein or in energy. With such self-selection, the chicken may adjust its intake of individual components, allowing the bird to optimise the heat load associated with the metabolism of the ingested nutrients. Additional promising strategies involve offering a choice between feeds with a different feed particle size or structure. A large particle size contributes to the development of the gastro-intestinal tract (GIT), especially the gizzard and the caeca. A large gizzard will maximize the grinding process and potentially ease digestion down the GIT, thereby reducing heat production associated with digestive processing. Also wet feeding may be profitable under heat stress conditions as well. Feeding wet diets may facilitate an increased water intake and larger particle sizes can limit water excretion in droppings, resulting in more water being available for evaporation during panting, hence cooling the bird. In conclusion, these feeding strategies may help to reduce heat production peaks, facilitate evaporative activity and/or decreases the heat load, resulting in beneficial effects on performance and health of the bird kept in more tropical areas worldwide.

Development and evaluation of a dynamic model of calcium and phosphorus flows in layers

Phosphorus is an essential nutrient involved in most metabolic processes. Most of the interest in Ca metabolism relates to eggshell formation. Although the eggshell is composed of Ca carbonate, metabolism of both Ca and P is closely related such that a deficiency in one can interfere with proper utilization of the other. To understand Ca and P metabolism properly, modeling can be of paramount importance. A new dynamic and mechanistic model of P and Ca metabolism in layers has been developed to simulate diurnal changes in Ca and P and the hourly requirement of the layer for those minerals. The model consists of 8 state variables representing Ca and P pools in the crop, stomachs, plasma, and bone. The flow equations are described by Michaelis-Menten or mass action forms. An experiment that measured Ca and P uptake in layers fed different Ca concentrations during shell-forming days was used for model evaluation. The experiment showed that Ca retained in body and egg decreased from 62.5 to 50.5% of Ca intake when the Ca in diet was increased from 25 to 45 mg/g of feed. The model simulations were in agreement with the trend. Predictions of Ca retention in bone and egg were 63.2, 56.1, and 55.3% for low, medium, and high dietary Ca concentrations. The experimental results showed that P retention in body and egg increased significantly from 11.5% of absorbable P intake at the lowest Ca inclusion concentration to 24.1% at the highest. The model also predicted an increase in P retention in bone and egg from 8.4 to 25.4% of absorbable P intake at the lowest and highest concentration of Ca inclusion, respectively. The advantage of the model is that absorption and utilization can be monitored on an hourly basis and that adjustments can be made accordingly. The model successfully showed how the availability of one mineral affects the utilization of the other and is a useful tool to evaluate feeding strategies aimed at reducing P excretion to the environment in poultry manure.

Growth responses to dietary energy and lysine at high and low ambient temperature in male turkeys

The effects of ambient temperature (T; 18 vs. 28 degrees C), dietary energy level [E; 90, 100, and 110% of NRC (1994) recommendations], and dietary lysine level [LYS; 105 vs. 120% of NRC (1994) recommendations], and their interactions on feed intake, BW gain, feed:gain ratio, and carcass yields of male turkeys were studied from 29 to 140 d of age. The experiment was designed as a split plot, including T as the main plot and E and LYS as the subplot, with 60 pens containing 10 male turkeys each. Overall, feed intake, BW gain, and feed:gain ratio were significantly lower at high compared with low T. Feed intake decreased linearly as E increased and was more pronounced at low compared with high T. Metabolizable energy intake increased more at high compared with low T as E increased. Turkeys that were fed the highest E gained less weight until 84 d of age than those fed the lowest E. Dietary lysine was not the limiting amino acid because birds showed no response to extra lysine. Feed:gain decreased linearly as E level increased. Until 84 d of age, feed:gain decreased more at low compared with high T as E level increased. Breast meat yields were lower, and thigh, drum, and wing yields were higher at high than at low T. The highest E resulted in lower cold carcass yields, and breast meat yields, and higher thigh and drum yields than the lowest E. Dietary lysine level did not affect carcass yield. The results imply that when dietary lysine levels are adequate, dietary energy may be increased above NRC (1994) to improve feed efficiency, but some of the limiting amino acids after lysine may be increased in high-density diets to optimize breast meat yield. Particularly at high temperature in the period after 16 wk of age, dietary energy contents may be increased to at least 110% of NRC (1994) because turkeys will need more energy to dissipate heat.

Importance of release location on the mode of action of butyrate derivatives in the avian gastrointestinal tract

In the field of animal nutrition, butyrate is used as a zootechnical ingredient and can be used as an unprotected salt or in the form of protected derivatives such as butyrate glycerides or butyrate-loaded matrices. Dietary butyrate supplementation has been shown to improve growth performance and resilience of broiler chickens through distinct mechanisms, operating on both eukaryotic and prokaryotic cells. Firstly, butyrate influences endogenous avian cells in multiple ways: it is an agonist of free-fatty acid receptors, an inhibitor of pro-inflammatory pathways, an epigenetic modulating agent and acts as an energy source. Secondly, butyrate influences the microbiota residing in the avian gastrointestinal tract (GIT) as a result of its bacteriostatic properties. The responses, e.g. changes in growth performance, gut morphology, carcass traits or nutrient digestibility of chickens, to dietary butyrate supplementation are inconsistent with factors such as additive inclusion level, diet composition, age and health status of the bird modulating the effects of butyrate and its derivatives. For many derivatives, the precise GIT segment wherein butyrate is released is unclear. Release location may affect the observed responses to butyrate given the diversity of cell types and pH conditions encountered throughout the gastrointestinal tract of poultry, and the differences in microbiota composition in the different gut segments. As a consequence, our understanding of the mode of action of butyrate is hampered. Characterisation of existing derivatives and development of targeted-release formulations are, therefore, important to gain insight in the different physiological effects butyrate can elicit in broiler chickens.

Effects of phytase supplementation on phosphorus retention in broilers and layers: A meta-analysis

Phytase, a widely used feed additive in poultry diets, increases P availability and subsequently reduces inorganic-P supplementation and P-excretion. Phytase supplementation effect on P-retention in poultry has been investigated, but the effect sizes were highly variable. The present studys objective was to conduct several meta-analyses to quantitatively summarize the phytase effect on P-retention in broilers and layers. Data from 103 and 26 controlled experiments testing the phytase effect on P-retention were included in 2 separate meta-analyses for broilers and layers, respectively. The mean difference calculated by subtracting the means of P-retention for the control group from the phytase-supplemented group was chosen as an effect size estimate. Between-study variability (heterogeneity) of mean difference was estimated using random-effect models and had a significant effect (P < 0.01) in both broilers and layers. Therefore, random-effect models were extended to mixed-effect models to explain heterogeneity and obtain final phytase effect size estimates. Available dietary and bird variables were included as fixed effects in the mixed-effect models. The final broiler mixed-effect model included phytase dose and Ca-to-total-P ratio (Ca:tP), explaining 15.6% of the heterogeneity. Other variables such as breed might further explain between-study variance. Broilers consuming control diets were associated with 48.4% P-retention. Exogenous phytase supplementation at 1,039 FTU/kg of diet increased P-retention by 8.6 percentage units on average. A unit increase of phytase dose and Ca:tP from their means further increased P-retention. For layers, the final mixed-effect models included dietary Ca, age, and experimental period length. The variables explained 65.9% of the heterogeneity. Layers receiving exogenous phytase at 371 FTU/kg were associated with a 5.02 percentage unit increase in P-retention. A unit increase in dietary Ca from its mean increased P-retention, whereas an increase in the experiment length and layers age decreased P-retention. Phytase supplementation had a significant positive effect on P-retention in both broilers and layers, but effect sizes across studies were significantly heterogeneous due to differences in Ca contents, experiment length, bird age, and phytase dose.

Impact of ambient temperature and age on dietary lysine and energy in turkey production

The commercial turkey market changed during the last two or three decades from predominantly whole turkey to mostly further processed products as consumer demand for breast meat and convenience increased in most western countries. Turkey operations focus on selection in breeding, management, and feeding programs to obtain a high breast meat yield. Main factors that affect breast meat yield are age, weight, sex, strain, genetic selection, and nutrition. The degree of influence by these factors on breast meat yield is highly dependent upon environmental conditions, especially ambient temperatures. This review deals with the response of commercial male turkeys on dietary lysine to energy ratios in moderate and hot climate conditions. A range dietary lysine to energy ratios have been determined to be optimal during each successive four-week period after hatch: 1.12 to 1.65, 1.10 to 1.36, 0.76 to 1.15, 0.64 to 0.81, and 0.53 to 0.86 g dietary lysine per MJ of ME, respectively). These optimum ranges in lysine to energy ratios are partly due to the continuous changes in genetic potential for growth and environmental effects on feed intake. Commercial male turkeys weighed about 18.5 kg at 140 days of age with a feed: gain ratio of 2.6 in 2001, as compared to about 8.0 kg at 220 days of age with a feed: gain ratio of 3.0 in 1966. Moreover, there is clear evidence in scientific literature that feed intake, and thus protein intake is negatively affected by short or long periods of heat stress in moderate and hot climates, respectively. Although some research included ambient temperature as a treatment variable in nutritional requirement studies with turkeys, most have been conducted at moderate temperatures. Feeding turkeys to minimize the adverse effects of heat stress is a big challenge for the modern turkey industry. More research is needed to better understand the relationship between dietary energy and lysine at different climatic conditions.