Abstract
Various levels of substitution of nano-dicalcium phosphate (nCaHPO4) for the calcium and phosphorus supplied by limestone and monocalcium phosphate were evaluated, based on weight change, serum constituents, immune response and intestinal morphology of broiler chickens. The birds were assigned to five dietary treatments containing 0% (control), 40%, 60%, 80%, and 100% substitution levels of nCaHPO4 from days 0 to 42. Data were collected for blood measurement and intestinal morphology and analysed with one-way analysis of variance. Feeds substituted with 40% nCaHPO4 showed a higher mean value of final weight and better feed conversion. The results revealed similar haematological parameters across the treatment groups. At the same time, nCaHPO4 influenced most of the serum biochemical constituents, such as calcium, phosphorus, glucose, albumin, and total protein. High concentrations of total protein were observed for birds fed 60% nCaHPO4 compared with other treatments. The highest comparable means for albumin were observed in birds fed 40% and 60% nCaHPO4. Cholesterol levels were increased when birds were fed 0% and 40% of diets. Elevated serum phosphorus concentration was observed when 0%, 40%, 60% and 100% substitution levels were fed, whereas 80% presented the least mean value. The results also showed that birds fed 40% nano-dicalcium phosphate had the highest villi length, which signified improved absorption of minerals. In conclusion, 40% and 60% levels of nCaHPO4 could be used to boost immune response and functional intestinal morphology of broiler chicken with no negative effect on haematological parameters.
Highlights
IntroductionNanotechnology is gaining ground in veterinary and animal sciences by supplying minute scales that are vital for living organisms
Nano-dicalcium phosphate with a particle size of 40 nm was purchased from Mknano, Ontario, Canada
Dietary treatments were created by replacing conventional monocalcium phosphate and limestone with nCaHPO4
Summary
Nanotechnology is gaining ground in veterinary and animal sciences by supplying minute scales that are vital for living organisms. The application of minerals in nano form showed improvement in feeding efficiency, minimizing losses from animal diseases, and converting animal by-products into value-added products (Chen & Yada, 2011). Nanomaterials have potential in a range of environmental applications owing to their extremely small particle size, large surface area, and high reactivity (Huang et al, 2015). Research into the adoption of nanominerals in poultry production is necessary to grasp the advantages of nanomaterials and to curb food insecurity. McDonald et al (2010) documented that various body processes require adequate amounts of minerals for proper growth and development. Minerals occur in body fluids and tissues as electrolytes concerned with the maintenance of osmotic pressure, acid-base balance, membrane permeability and transmission of nerve impulses
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