A total of 240 broiler chicken of same hatch with uniform weight were used in a biological experiment with completely randomized design to investigate the effects of incorporating organic chromium (Cr) in flaxseed meal based diet on the fatty acid profile, oxidative stability and functional properties of broiler chicken meat. Five diets were formulated as per the recommendations of BIS (Nutrient requirements for poultry 13: 9863, Bureau of Indian Standards, New Delhi, 1992) in which flaxseed meal was used to replace 10% of soyabean in basal diet and four levels of Cr (0.0, 0.5, 1.0 and 1.5 mg/kg diet) as Cr-picolinate were used. The results revealed that flaxseed feeding significantly increased the percentage of unsaturated fatty acids, including MUFA, PUFA, ω-3, ω-6 fatty acids and ω-3:ω-6 and PUFA:SFA ratios, whereas, significant decline was seen in saturated fatty acids and no effect of Cr was observed on the fatty acid profile of broiler chicken. Flaxseed feeding significantly reduced the cholesterol and fat percentage of meat, whereas, significant progressive reduction was observed with increasing Cr levels. The combination of 10% flaxseed with 1.0 mg Cr/kg diet increased the final pH of broiler meat. The addition of flaxseed significantly reduced water holding capacity, extract release volume and antioxidant potential of broiler meat, whereas, increasing Cr supplementation progressively increased them. Flaxseed feeding significantly increased the drip loss and lipid peroxidation of broiler meat, whereas, Cr supplementation decreased them. It was concluded that inclusion of 10% flaxseed and 1.5 mg Cr/kg diet results in desirable fatty acid profile, oxidative stability and functional properties of broiler chicken meat.
The objective of the study is to evaluate the fatty acid profile, oxidative stability, and other associated quality attributes of broiler chicken meat as affected by feeding ration containing flaxseed, broken rice, and distillers dried grains with solubles (DDGS). Six dietary treatments are formulated with no flaxseed in the first one and 10% in the other five; and 20% broken rice, 40% broken rice, 5% DDGS, and 10% DDGS in the third, fourth, fifth, and sixth treatments, respectively. No dietary effects are observed on body weight gain, but 10% flaxseed along with either broken rice or DDGS increases feed intake of birds. The flaxseed significantly reduces feed efficiency of birds which is further reduces by 10% DDGS. The flaxseed significantly increases the ω‐3 PUFA, ω‐3:ω‐6, PUFA:SFA, MUFA:SFA, UFA:SFA ratios with consequent decrease in percentage of saturated fatty acids (SFA), atherogenic index, and thrombogenic index of broiler chicken meat, which is furthered by DDGS inclusion. Flaxseed inclusion significantly reduces cholesterol, fat, water holding capacity (WHC), and antioxidant capacity, whereas, it increases the pH (fresh meat), drip loss, and lipid peroxidation of broiler chicken meat. Inclusion of DDGS levels further increases drip loss, and lipid peroxidation, whereas, it further reduces WHC, extract release volume (ERV), and antioxidant capacity of broiler chicken meat. The study indicates that inclusion of 10% flaxseed along with 5% or 10% DDGS improves chicken meat fatty acid profiles, health related indices, and reduces the cholesterol and fat content, but compromises the feed efficiency of birds and the oxidative stability of meat. Practical Application: The inclusion of 10% flaxseed along with 5% or 10% DDGS increases PUFA content, ω‐3/ω‐6 ratio, and decreases the saturated fatty acid content of broiler chicken meat. The 10% flaxseed also reduces the cholesterol and fat content of meat. This designed meat can help reduce the incidences of cardiovascular diseases. The flaxseed and DDGS inclusion reduces WHC and increases drip loss which may have detrimental effects on further processing of meat. However, both flaxseed and DDGS inclusion compromises the oxidative stability of meat and feed efficiency of birds which reflects badly on shelf life of meat and profitability of broiler production. Thus, it needs to be addressed by adding suitable antioxidant in the broiler ration. As a result of changing food habits among people cardiovascular diseases are on the rise, the treatment costs of which are economically highly regressive. Here comes into play, the famous quote of Hippocrates “Let food be thy medicine and medicine be thy food.” Designing the food we eat will help prevent these cardiovascular diseases. In this regard flaxseed and DDGS inclusion in broiler chicken ration results in ω‐3 fatty acid enriched meat with health promoting effects.
This study investigated the role of flaxseed meal (FSM), a rich terrestrial source of ω-3 fatty acids, in the alteration of the fatty acid profile and metabolism, health indices, physicochemical properties, and sensory quality of broiler chicken meat. The broiler chickens were fed 100 g FSM kg −1 diet for different time periods (1, 2, 3, 4, and 5 weeks). The results revealed that 100 g FSM feeding in broiler chickens for at least 3 weeks increased (P < 0.01) the EPA, DHA, MUFA, PUFA, ω-3 PUFA, and ω-6 PUFA of broiler chicken meat with the corresponding decrease in palmitic acid, stearic acid, and SFA content. 100 g FSM feeding up to 3 weeks has increased the Δ 9desaturases (P < 0.05), thioesterase index (P < 0.01), and Δ 5 -desaturase + Δ 6 -desaturase activity (P < 0.01) along with an improvement in health indices (P < 0.01) of chicken meat. Similarly, a reduction in meat cholesterol and fat content of thigh meat (P < 0.01) was observed by feeding 100 g FSM for at least 3 weeks with no effect on the pH, color scores, and sensory evaluation of broiler chicken meat. The water-holding capacity (WHC) and extract release volume (ERV) decreased, whereas, drip loss of meat increased (P < 0.01) due to the feeding of 100 g FSM beyond 3 weeks. Thus, this study concluded that 100 g FSM feeding for 3 weeks in broiler chickens significantly improves the fatty acid profile, lipid metabolism, and health indices of meat, without compromising the physicochemical properties of broiler chicken meat.Keywords Food and feed science/nutrition and health Á Lipid chemistry/lipid analysis Á Chromatography Á Sensory analysis J Am Oil Chem Soc (2019) 96: 261-271.
The present study was conducted to evaluate the effect of feed-grade enzyme supplementation in diets with varying levels of energy on the performance of growing and laying Japanese quails. Day-old Japanese quails, 504 in number, were subjected to six dietary treatments with six replicates at each treatment. Each replicate had 14 chicks. The dietary treatments consisted of three energy levels ie 12.15 MJ (2900 kcal), 11.30 MJ (2700 kcal) and 10.48 MJ (2500 kcal) ME kg −1 diet and two enzyme levels (0 and 0.5 g kg −1 diet). A metabolism trial was conducted at the fourth week of age. At the end of week 5, 10 quails (five of each sex) per treatment were sacrificed for carcass characteristics and 20 female quails from each of the six dietary groups were housed in individual laying cages and fed respective layer diet to study the laying performance and egg quality up to 20 weeks of age. Body weight gains of quails fed 12.15 MJ or 11.30 MJ ME kg −1 diets were significantly higher (p < 0.01) than those fed diets with 10.46 MJ ME kg −1 diet. Feed intake was significantly lower (p < 0.01) in birds that received diet with 12.15 MJ ME kg −1 than in birds that diets containing either 11.30 or 10.46 MJ ME kg −1 diet. Feed conversion ratio (p < 0.01) was best at 12.15, followed by 11.30 and 10.46 MJ ME kg −1 diet. Enzyme supplementation did not improve the growth performance, feed intake or feed conversion efficiency of quails. Enzyme addition also did not influence nitrogen retention or energy or dry matter metabolizability. The carcass characteristics did not differ because of energy or enzyme supplementation. Feed intake increased significantly (p < 0.01) as the dietary energy level decreased. The egg production and quality characteristics remained almost similar in all the dietary treatments. It was concluded that the optimum dietary energy level for quail was 12.15 MJ (2900 kcal) ME kg −1 during the growing phase and 11.30 MJ (2700 kcal) ME kg −1 during the laying phase. Addition of feed enzymes to conventional diets containing varying levels of maize, soyabean meal, fish meal and deoiled rice bran was not beneficial to improve growth, carcass traits, egg production performance or nutrient utilization.
1. A feeding trial was conducted on 360 1-d-old chicks from 0 to 6 weeks of age to assess the effect of processed high tannin red sorghum in the diet of broiler chickens on nutrient utilisation and certain welfare parameters. 2. Each of 9 dietary treatments was allotted to 4 groups (replicates) of chicks in a completely randomised design. The treatments were a maize-soy based standard broiler diet (control, RS(0)) and eight test diets formulated by incorporating either raw red sorghum (RS(25), RS(50), RS(75), RS(100)) or reconstituted red sorghum (RS(25)(R), RS(50)(R), RS(75)(R), RS(100)(R)) replacing 25, 50, 75 or 100% of maize from the control diet. 3. The tannin content was reduced from 23 to 16 g/kg in reconstituted red sorghum. 4. Utilisations of nitrogen, calcium and phosphorus retention were similar in all the dietary groups. 5. The cell-mediated immune response measured as footpad index (FPI) value of birds given raw red sorghum was significantly higher than in control and reconstituted red sorghum groups. Similarly, comparatively better humoral response measured as HA titre value was observed in raw red sorghum based groups than in reconstituted ones. 6. Plasma albumin, globulin, protein, glucose, calcium, phosphorus, SGOT, SGPT and uric acid levels did not differ significantly due to dietary treatments. 7. Mild histopathological changes were observed in liver and kidney tissues of birds given raw red sorghum. 8. From the present study, it is concluded that (1) the reconstitution of high tannin red sorghum resulted in about 30% reduction in its tannin concentration; (2) the feeding of reconstituted sorghum based diets to broiler chickens did not exert any appreciable influence on nutrient utilisation, blood biochemicals and enzymes and gross pathological changes; and (3) the birds fed on raw red sorghum exhibited higher immuno-responsiveness in comparison to their reconstituted counterparts.
The present study aimed to evaluate growth performance and meat quality of broiler chicken with respect to feeding of 100 g flaxseed meal (FM)/kg and increasing lysine levels in the broiler diet. The results revealed no effect of lysine and FM feeding on growth performance except for a negative effect of FM on feed efficiency of birds, which was countered by feeding 1.25 BIS lysine. Feeding FM improved the fatty acid profile of broiler chicken meat significantly, whereas no effect was observed for increasing lysine levels beyond BIS recommendation. FM significantly reduced meat cholesterol, fat, water-holding capacity (WHC), extract release volume (ERV) and antioxidant potential, whereas it increased the pH of fresh meat, drip loss and lipid peroxidation of broiler chicken meat. As compared with other lysine levels, generally 1.25 BIS lysine significantly increased the pH of refrigerated stored meat, WHC, ERV and antioxidant potential, whereas it significantly reduced cholesterol, fat, drip loss and lipid peroxidation of broiler chicken meat. Thus, the inclusion of 100 g FM/kg diet along with 1.25 BIS lysine in broiler ration was optimum for desirable broiler performance, fatty acid profile, oxidative stability and other functional properties of broiler chicken meat.
This study investigated the effect of broken rice and distillers dried grains with solubles (DDGS) in a flaxseed-based diet on the growth performance, production efficiency, carcass characteristics, sensory evaluation of meat, and serum biochemistry of broiler chickens. Six dietary treatments were formulated with no flaxseed in the first group (C), 10% in another five (T1, T2, T3, T4, and T5), and 20% broken rice, 40% broken rice, 5% DDGS, and 10% DDGS in the T2, T3, T4, and T5 treatment groups, respectively. Each treatment was allocated 6 replicates with 8 chicks in each at random. Treatment with 10% flaxseed and 10% DDGS was found to have a negative effect on broiler growth and efficiency to some extent, whereas broken rice had no such effect. Feed that included 10% flaxseed and 40% broken rice significantly reduced serum triglyceride and cholesterol. Serum antioxidant enzyme activities and malondialdehyde concentration were increased by 10% flaxseed feeding and were further increased by 5% as well as 10% DDGS addition, whereas broken rice had no effect on them. The present study concluded that 10% flaxseed and 10% DDGS feeding negatively affects broiler performance and serum antioxidant capacity but reduces serum triglyceride and cholesterol levels, whereas broken rice can be safely used as a 40% replacement alternative for corn in broiler diets.
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