To Reduce the Effects of Experimental Aflatoxicosis in Broiler Chicks Using Specific Egg Yolk Immunoglobulin (IgY)

Background: This experiment was conducted to evaluate the effects of the specific egg yolk immunoglobulin (IgY) on reducing the defects of experimental aflatoxicosis in broilers.Materials and Methods: In a completely randomized design, a total of 128 Ross 308 broiler chicks were used in 4 treatments, 4 replicates and 8 observations (chicks) for 42 days.  Treatments were: 1) control; 2) diet containing 1 ppm aflatoxin B1; 3) diet contaminated with 1 ppm aflatoxin B1 + 0.75 % of egg yolk containing IgY; 4) diet contaminated with 1 ppm aflatoxin B1 + 1.5 % of egg yolk containing IgY.Results: The results showed that the use of aflatoxin containing diet significantly increased the feed conversion ratio, serum cholesterol concentration, serum gamma-glutamyl transferase (GGT), and aspartate aminotransferase (AST). Also, experimental aflatoxicosis resulted in reduced feed intake, weight gain, serum total protein and albumin concentrations (p<0.05); as well as the liver histopathologic lesions. IgY containing egg yolk (0.75% and 1.5%) added to the contaminated ration improved feed intake, weight gain and feed conversion ratio compared to treatment 2 (p<0.05). Compared to treatment 2, serum cholesterol concentration decreased while total protein concentration increased in treatments 3 and 4 (p<0.05). Liver tissue was approximately normal with mild effects on hepatocytes and mild cytoplasmic changes in chicks receiving treatments 3 and 4. Conclusion: It can be concluded that specific IgY is effective in reducing the defects of experimental aflatoxicosis as well as improving performance in broilers.

Comparison of yolk fatty acid content, blood and egg cholesterol of hens fed diets containing palm olein oil and kilka fish oil

The purpose of this study was to compare the effects of dietary palm olein oil (POO) and Kilka fish oil (KFO) on yolk fatty acid content, ratio of fatty acids (FAs), antibody titre, and blood and yolk cholesterol of laying hens. One hundred White Hy-Line 26-wk-old (W-36) hens were allotted to 6 dietary treatments containing 0, 1.5, 3 and 4.5% POO or 2 and 4% KFO. The FAs and cholesterol content of yolk were measured at the end of three consecutive days of each period. Results reveal that the oleic acid increased and palmitic acid decreased (P<0.05) when hens were fed diets containing POO. The KFO diets reduced the blood cholesterol, yolk linoleic acid and yolk ω-6 FA (P<0.05), whereas the blood cholesterol increased by the supplementation of POO to dietary treatments. The yolk long chain polyunsaturated ω-3 FAs [Eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA)] increased as KFO was increased in diets (P<0.001). The diets supplementation of KFO and POO thus, showed a decrease and an increase in the ratio of ω-6/ ω-3 FAs (P<0.05), respectively. It is concluded that supplementation of KFO to the dietary treatment may improve deposition of ω-3 FAs; however, the POO supplementation may improve deposition of ω-9 FAs without alteration of yolk cholesterol.Key words: Palm olein oil (POO), Kilka fish oil (KFO), hens, egg omega-9 and omega-3 fatty acid

Antioxidant status, immune system, blood metabolites and carcass characteristic of broiler chickens fed turmeric rhizome powder under heat stress

This experiment was conducted to evaluate the effects of dietary turmeric rhizome powder (TP) on performance, blood metabolite, immune system, antioxidant status, and relative weight of organs in pre and post heat stressed broilers. Two hundred and sixty-four (264) day-old male Arian broiler chicks were randomly allotted to three dietary treatments containing 0, 0.4 or 0.8% turmeric powder. Each diet was fed to four replicates of 22 birds each. Heat stress was applied for 5 h (33°C) from 28 to 42 days. Two birds from each replicate were randomly selected and blood samples were taken to collect the serum, plasma and whole blood. These were slaughtered to determine the relative weight of organs pre (28 days PHS) and after heat stress (42 days AHS). TP did not affect feed intake, body weight, feed conversion ratio (FCR), production index, and protein and energy efficiency ratio of broilers. Blood cholesterol and low density lipoprotein (LDL) decreased and blood high density lipoprotein (HDL) increased when fed TP in PHS and AHS birds. TP did not affect serum triglyceride, protein, antibody production against sheep red blood cell (SRBC), IgG, IgM and Newcastle vaccination (ND) in PHS and AHS. TP suppressed the enzyme activity of lactate dehydrogenase (LDH), aspartate aminotransferase (AST), alanine aminotransferase (ALT), and alkaline phosphatase (ALP) of heat stressed birds. The enzyme activity of creatine kinase (CK) in AHS and superoxide dismutase (S OD) in PHS were not affected by TP diets. TP diets increased blood activity of glutathione peroxidase (GPx) and SOD and decreased blood thiobarbituric acid reactive substances (TBARS) index. The H:L ratio, relative weight of bursa of fabircus and abdominal fat decreased in birds fed TP diets. TP diets did not alter percentage of bone Ash, and P of heat stress broilers; however, it increased bone Ca of heat stressed broilers. It can be concluded that the supplementation of TP to diets, decreased the activity of dehydrogenase enzyme, stressor index, and improved the antioxidant status without affecting performance and the immune system of heat stressed broilers.Key words: Turmeric powder, immune and antioxidant system, blood metabolite, broiler

Effects of Kallequchi Pistachio Green Hull (Pistacia vera) and Its Processed with Urea on Performance, Immune Response, and Blood Biochemical Indices and Jejunal Morphology in Broiler Chickens

Introduction: The use of agricultural and food industry by-products in animal feed leads to a reduction in breeding costs. In addition application of agricultural waste in poultry feed also reduces the environmentally harmful effects. One of these by-products is pistachio green peel, which is produced in food industries. Common pistachio (common pistachio in the market) with the scientific name Pistacia vera is a plant of the genus Anacardiaceae. Iran is the world's largest pistachio producer with 58% of the world's pistachio production. Research has shown that about four hundred thousand tons of pistachio by-products are produced annually in Iran and large volumes in the harvest season and high humidity of these products cause environmental pollution and pistachio orchards. Pistachio green peel has a parenchymal and fibrous structure and contains water, sugars, proteins, fats, minerals, vitamins, color compounds and terpenes. Green pistachio skin contains 4425.45 Kcal/kg of gross energy, 32.64% of dry matter, 11.24% of crude protein, 15.38% of crude fiber, 13.13% of ash, 5.79% of ether extract, 1.08 of calcium, 0.11% of phosphorus, 0.31% of magnesium, 4.44% of potassium. The concentrations of iron, manganese, copper and zinc in pistachio green peel are 660.68, 23.6, 16.23 and 5.27 mg/kg, respectively. There are significant amounts of alpha-pinene, alpha-terpinolene, flavonoids and phenolic compounds. Food sources rich in phenolic compounds have a set of physiological properties including antioxidant, antimicrobial, anti-mutagenicity, lipoprotein oxidation inhibitor and have platelet aggregation, anti-inflammatory activity  and strengthen the immune response. The use of pistachio green peel extract improved the growth performance of broiler chickens, blood lipids and abdominal fat. The use of pistachio green skin extract in the diet of broiler infected with Staphylococcus aureus improved growth performance, increased antibody titer against sheep erythrocytes, decreased blood lipids and microbial population of the gastrointestinal tract of broilers. Therefore, the aim of this research was to investigate the effect of Green Pistacia of kallequchi and it’s processed with urea on growth performance, blood indices, immune response and jejunum morphology of broiler chickens.Materials and Methods: A total of 280 male broilers were randomly distributed in 28 experimental units including 7 treatments, 4 replicates and 10 chicks each. The experimental diets consisted of the levels of 0, 1.5, 3, and 5% of the raw and processed green hull of kallequchi pistachio. The broilers were fed with three dietary programs including starter (1-10 days), grower (11-24 days), and finisher (25-42 days). At the end of each period, the body weight gain and feed consumption were recorded and the feed conversion ratio was calculated. Two birds of each replicate were slaughtered and their blood was gathered to analyze the biochemical blood indices at 42 days of age. The data were analyzed with SAS software and the mean was compared with the Tukey test at 0.05.Results and Discussion: The addition of green hull of pistachio and its processed to diets cause a decrease in the feed conversion ratio during the starter and the whole period of the experiment (P≤0.05). In the starter period, adding 3% of the green hull of the pistachio increased the body weight gain compared to the control (P <0.05). The pistachio green hull increased total antibody and immunoglobulin G antibody titer against sheep red blood cells compared to control (P≤0.05). Experimental diets decreased serum cholesterol and LDL concentrations compare to control (P≤0.05). The green hull of kallequchi pistachio and its processed increased the villus height and decreased villus width and the ratio of height to crypt depth compared to the control (P≤0.05). Different levels of kallequchi pistachio green hull and its processed increased relative weight of the breast, heart, burs fabricius and decreased abdominal fat compared to control (P≤0.05). The same findings were reported by researchers that pistachio green hull extract decreased blood lipids and increased the immune response of broiler chickens (Yousefi et al., 2018; Hosseini Vashan et al., 2020).Conclusion: It is concluded that adding green hull of kallequchi pistachio up to 5% into broiler diets may improve growth performance, however, the addition of 3% could reduce cholesterol, FCR and improve the immune response of broiler chickens

Quantitative trait loci identified for blood chemistry components of an advanced intercross line of chickens under heat stress

Background: Heat stress in poultry results in considerable economic losses and is a concern for both animal health and welfare. Physiological changes occur during periods of heat stress, including changes in blood chemistry components. A highly advanced intercross line, created from a broiler (heat susceptible) by Fayoumi (heat resistant) cross, was exposed to daily heat cycles for seven days starting at 22 days of age. Blood components measured pre-heat treatment and on the seventh day of heat treatment included pH, pCO2, pO2, base excess, HCO3, TCO2, K, Na, ionized Ca, hematocrit, hemoglobin, sO2, and glucose. A genome-wide association study (GWAS) for these traits and their calculated changes was conducted to identify quantitative trait loci (QTL) using a 600 K SNP panel. Results: There were significant increases in pH, base excess, HCO3, TCO2, ionized Ca, hematocrit, hemoglobin, and sO2, and significant decreases in pCO2 and glucose after 7 days of heat treatment. Heritabilities ranged from 0.01-0.21 for pre-heat measurements, 0.01-0.23 for measurements taken during heat, and 0.00-0.10 for the calculated change due to heat treatment. All blood components were highly correlated within measurement days, but not correlated between measurement days. The GWAS revealed 61 QTL for all traits, located on GGA (Gallus gallus chromosome) 1, 3, 6, 9, 10, 12–14, 17, 18, 21–28, and Z. A functional analysis of the genes in these QTL regions identified the Angiopoietin pathway as significant. The QTL that co-localized for three or more traits were on GGA10, 22, 26, 28, and Z and revealed candidate genes for birds’ response to heat stress. Conclusions: The results of this study contribute to our knowledge of levels and heritabilities of several blood components of chickens under thermoneutral and heat stress conditions. Most components responded to heat treatment. Mapped QTL may serve as markers for genomic selection to enhance heat tolerance in poultry. The Angiopoietin pathway is likely involved in the response to heat stress in chickens. Several candidate genes were identified, giving additional insight into potential mechanisms of physiologic response to high ambient temperatures

Evaluation of cis and trans fatty acid profiles in a Camel\\\'s hump and meat consumed in Birjand and Nehbandan cities

Background and Aim: Studies in the recent decade indicate that a high percent of cis and trans –fatty acids and omega 6 in man’s food sources increase the incidence of cardiovascular and atherosclerosis diseases One of animal protein sources used in human diet is the camel meat. Therefore, fatty acid profiles of the camel hump and meat in Birjand and Nehbandan cities, as two main camel meat sources of the South Khorasan province, were evaluated. Materials and Methods: In this descriptive-analytical study, 5 samples of local camels were randomly selected, and after being slaughtered, five samples of their respective thigh meat, fillet<, and hump fat were collected and frozen at 80oc. Then, the oils were separated and methylated. After this, the type of each fatty acid was designated in comparison with retention time at the internal standard peak. Finally, the obtained data was analysed using SAS statistical software. Results: It was found that the amount of lauric, meristic, meristoleic, palemitoleic 'cis and trans', oleic, linoleic, linolenic, eicosaenoeic, eicosatrienoic, arashidonic, eicosapentaenoic, docosapentaenoic acids SFA, and MUFA of Omega 6 were not significantly different in the two cities ,nor in the hump and meat of camels in the two places. The amount of palmitic, strearic, conjugated linoleic acid, eicosamonoenoic, eicosadienoic and docosahexaenoic acids were significantly different between hump and types of meat mentioned in different areas of the province i.e. the amount of trans fatty acids was less in the hump ,but totally more in Nehbandan compared to Birjand (P<0.05). Conclusion: Although there is no difference in the total amount of saturated and unsaturated fatty acids derived from the camel meat or hump in the two areas, the amount was less in the hump of the camel and also lower in Birjand. Therefore, it is probable that the camel's products in Birjand have a better quality regarding the incidence of atherosclerosis

Effect of Different Levels of Surplus Date on Performance, Egg Quality and Blood Parameters in Laying Hens

One hundred forty-four 26-wk-old white Hy-Line layers (W-36) were fed commercial diets containing 0, 1.5, 3 and 5% surplus date for three period of 28 days each to study the effects of dietary surplus date on hen performance (egg production, egg weight, egg mass, feed intake, feed conversion ratio ‘FCR’ and body weight gain) and egg quality parameters (Haugh unit score, yolk colour index, yolk index, egg shape, shell weight, shell thickness and density). The yolk of eggs extracted and cholesterol content were determined on one egg of each replicate hens in each period. Blood samples were collected in non-heparin zed tubes from six hens in each treatment through brachial vein at the end of experiment. Serum was separated after 8-10 hrs and was stored at – 20 oC for subsequent analysis. Hen performance (egg production, egg mass, feed intake, FCR and weight gain) and egg quality parameters (Haugh unit score, yolk colour index, yolk index, egg shape, shell weight, shell thickness and density) were not significantly different among treatments (P>0.05); However in all traits, the control group had numerically lower value, except egg weight that was significantly increased with supplementation of surplus date in diet. The dietary surplus date did not significantly affect egg cholesterol, ND and IBD titre, but the serum cholesterol was significantly reduced in hens fed diets contained 5% surplus date. This study suggested that the surplus date may be used up to 5% in the diet of laying hens to reduce blood cholesterol without any significant adverse effect on performance

Effect of Hydroethanolic Saffron petals’ extract on performance, carcass characteristics and blood parameters of Japanese quails challenged by aflatoxin

The purpose of this study is to investigate the effect of Hydroethanolic saffron petals’ extract (HSPE) on the performance, carcass characteristics and blood biochemical parameters of Japanese quails challenged with Aflatoxin B1. A total of 168 day-old quails were arranged into 28 experimental units with 7 treatments in a completely randomized design. The treatments included control, 3, 6 ppm aflatoxin B1, 3ppm aflatoxin +350 ppm HSPE, 3ppm aflatoxin +700 ppm HSPE, 6ppm aflatoxin +350 ppm HSPE and 6ppm aflatoxin +700 ppm HSPE. Each treatment included 4 replicates with 6 birds. Two quails from each pen were selected, slaughtered and carcass parts were weighed and their relative weights were calculated. The data were analyzed by the SAS software. The results revealed that chicks contaminated with aflatoxin had weight loss and reduced feed intake. However, addition of HSPE to their diet improved the feed intake and body weight of the sick birds. The lower FCR were observed in quails contaminated with aflatoxin. However, supplementation of Hydroethanolic saffron petals’ extract to their diet improved the FCR. The relative weight of burs of fabricus and liver had decreased and increased in the contaminated birds, respectively. Aflatoxin B1 affected the relative weight and length of intestine parts. Aflatoxin B1 decreased the concentration of cholesterol and triglyceride and increased liver enzyme activity. Therefore, supplementation of Hydroethanolic saffron petals’ extract to diets may improve the body weight, feed intake and FCR of quail contaminated with aflatoxin B1