Nanotechnology and its Considerations in Poultry Field: An Overview


W.A. ABD EL-GHANY
Abstract

Nanotechnology is an emerging science field that in the years to come could have countless beneficial effects on every aspect of everyday life including animal farming. Recently, research in this sector has shown the potential for many different applications in Veterinary practice. In poultry farming in particular, various nanoparticles have been experimentally used for several purposes such as: alternative to antibiotics as growth promoters, as feed additives to enhance and improve the growth rate, performance, immunity, resistance to pathogens and increase the quality of meat. In laying hens, they can have a positive influence to both quantity and quality of eggs. Moreover, nanomaterials applied in embryonated chicken eggs can improve embryos development. The aim of this overview is to provide a description of potential nanotechnology applications for poultry sector and discuss any challenges or obstacles including the matters of safety of application of these nanomaterials in animals, in humans and of course in the environment.

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Literaturhinweise
Ahmadi F (2012) Impact of different levels of silver nanoparticles (Ag-NPs) on performance, oxidative enzymes and blood parameters in broiler chicks. Pak Vet J 32: 325-328.
Andi MA, Hashemi M, Ahmadi F (2011) Effects of feed type with/without nanosil on cumulative performance, relative organ weight and some blood parameters of broilers. Global Vet 7: 605-609.
Badawi M, Ali M, Behairy A (2017) Effects of zinc sources supplementation on performance of broiler chickens. J Amer Sci 13: 35-43.
Bai DP, Lin XY, Huang YF, Zhang XF (2018) Theranostics aspects of various nanoparticles in Veterinary Medicine. Int J Mol Sci 19:1-32.
Bhanja S, Hotowy A, Mehra M, Sawosz E, Pineda L, Vadalasetty K, Kurantowicz N, Chwalibog A (2015) In ovo administration of silver nanoparticles and/or amino acids influence metabolism and immune gene expression in chicken embryos. Inter J Molec Sci 16: 9484-9503.
Buzea C, Pacheco BI, Robbie K (2007) Nano materials and nano particles: sources and technology. Bioenterphases 2: 1-103.
Chen H, Weiss J, Shahidi F (2006) Nanotechnology in nutraceuticals and functional foods. Food Technol 3: 30-36.
Cockburn A, Bradford R, Buck N, Constable A, Edwards G, Haber B, Hepburn P, Howlett J, Kampers F, Klein C, Radomski M, Stamm H, Wijnhoven S, Wildeman T (2012) Approaches to the safety assessment of engineered nanomaterials (ENM) in food. Food Chem Toxicol 50: 2224- 2242.
Dobrzanski Z, Zygadlik K, Patkowska-Sokola B, Nowa-kowski P, Janczak M, Sobczak A, Bodkowski R (2010) The effectiveness of nanosilver and mineral sorbents in the reduction of ammonia emissions from livestock manure. Przem Chem 4: 348-351.
European Food Safety Authority (EFSA) (2016): Panel on additives and products or substances used in animal feed (FEEDAP), revision of the currently authorised maximum copper content in complete feed. Europ Food Safety Authority J 14.
El-Moustafa KEM, Ghazalah AA, Rehan AAA (2015) Effect of dietary nanosilver on broiler performance. Inter J Poult Sci 14: 177-182.
Fang Z, Zhao, Y, Zhang M (2015) Current Practice and Innovations in Meat Packaging. Australian Meat Processing Corporation, 1-97.
Feng M, Wang ZS, Zhou AG, Ai DW (2009) The effects of different sizes of nanometer zinc oxide on the proliferation and cell integrity of mice duodenum- epithelial cells in primary culture. Pak J Nutri 8: 1164-1166.
Gallocchio F, Belluco S, Ricci A (2015) Nanotechnology and Food: Brief overview of the current Scenario. Proc Food Sci 5: 85-88.
Gruère GP (2012) Implications of nanotechnology growth in food and agriculture in OECD countries. Food Policy 37:191-198.
Hassan AA, Howayda ME, Mahmoud HH (2013) Effect of zinc oxide nanoparticles on the growth of mycotoxigenic mould. SCPT 1: 66-74.
Hassan HMA, Samy A, El-Sherbiny AE, Mohamed MA, Abd-Elsamee MO (2017) Application of nano-dicalcium phosphate in broiler nutrition: performance and excreted calcium and phosphorus. Asian J Anim Vet Adv 11: 477- 483.
Hett A (2004) Nanotechnology: Small Matter, Many Unknowns. Swiss Reinsurance Co., Zurich, Pages: 55.
Hu CH, Li YL, Xiong L, Zhang HM, Song J, Xia MS (2012) Comparative effects of nano elemental selenium and sodium selenite on selenium retention in broiler chickens. Anim Feed Sci Tech 177: 204-210.
Huang S, Wang L, Liu L, Hou Y, Li L (2015) Nanotechnology in agriculture, livestock, and aquaculture in China. A review. Agron. Sustain. Dev 35: 369-400.
Ibrahim D, Haytham AA, Shefaa AME (2017) Effects of different zinc sources on performance, bio distribution of minerals and expression of genes related to metabolism of broiler chickens. Zagazig Vet J 45:292-304.
Ismail FSA, Mostafa MY, Azzam MMM, Gorgy MAL (2016) Effect of some sources of antioxiadnts on the productive and reproductive performance of turkey hens. J Anim Poult Prod, 7: 393-401.
Joshua PP, Valli C, Balakrishnan V (2016) Effect of in ovo supplementation of nano forms of zinc, copper, and selenium on post-hatch performance of broiler chicken. Vet World 9: 287-294.
Jó´zwik AID, Joanna M, Nina S, Jarosław OH, Małgorzata S, Adam C, Paulina L, Damian J, Agnieszka K, Atanas GA (2018) The effect of different levels of Cu, Zn and Mn nanoparticles in hen turkey diet on the activity of aminopeptidases. Molecules 23: 1-8.
Kannaki TR, Verma PC (2006) The Challenges of 2020 and the role of nanotechnology in poultry research (pp: 273-277), Poultry research priorities to 2020. Proceedings of National Seminar (November 2-3).
Central Avian Research Institute, Izatnagar-243 122 (India). Lee J, Jo M, Kim TH, Ahn JY, Lee DK, Kim S, Hong S (2011) Aptamer sandwich-based carbon nanotube sensors for single-carbon-atomic-resolution detection of non-polar small molecular species. Lab Chip 11: 52-56.
Loghman A, Iraj SH, Naghi DA, Pejman M (2012): Histopathologic and apoptotic effect of nanosilver in liver of broiler chickens. Afr J Biotechnol 11: 6207-6211.
Lövenstam G, Rauscher H, Roebben G, Sokull Klüttgen B, Gibson N, Putaud JP, Stamm H (2010) Considerations on a definition of nanomaterial for regulatory purposes. Joint Research Center of the European Commission (JRC) Reference Reports. Publication Office of the European Union, Luxembourg. pp. 17-18.
Minglei S, Zheng L, Xiaoye G, Xiu’an Z (2013) Copper silicate nanoparticles: Effects of intestinal microflora, nitrogen metabolism and ammonia emission from excreta of yellow-feathered broilers. Nutri Feed Sci Technol 25: 1843-1850.
Miroshnikov S, Yausheva E, Sizova E, Miroshnikova E (2015) Comparative assessment of effect of copper nano- and microparticles in chicken. Oriental J Chem 31: 2327-2336.
Mohapatra P, Swain RK, Mishra SK, Behera T, Swain P et al ., (2014) Effects of dietary nano-selenium supplementation on the performance of layer grower birds. Asian J Anim Vet Adv 9: 641-652.
Mroczek-Sosnowska N, Lukasiewicz M, Wnuk A, Sawosz E, Niemiec J (2014) Effect of copper nanoparticles and copper sulfate administered in ovo on copper content in breast muscle, liver and spleen of broiler chickens. Annals of Warsaw University of Life Sciences-SGGW. Anim Sci 53: 135-142.
Mroczek-Sosnowska N, Łukasiewicz M, Wnuk A, Sawosz E, Niemiec J, Skot A, Jaworski S, Chwalibog A (2015) In ovo administration of copper nanoparticles and copper sulfate positively influences chicken performance: Effect of Cu on chicken performance. J Sci Food Agri 96: 3058-3062.
Mroczek-Sosnowska N, Łukasiewicz M, Adamek D, Kamaszewski M, Niemiec J, Wnuk-Gnich A, Scott A, Chwalibog A, Sawosz E (2017) Effect of copper nanoparticles administered in ovo on the activity of proliferating cells and on the resistance of femoral bones in broiler chickens. Archive Anim Nutri 71: 327-332.
Muktar Y, Bikila T, Keffale M (2015) Application of nanotechnology for animal health and production improvement: A Review. World Appl Sci J 33: 1588-1596.
Nguyen QK, Nguyen DD, Nguyen VK, Nguyen KT, Nguyen HC, Tran XT, Nguyen HC, Phung DT (2015) Impact of biogenic nanoscale metals Fe, Cu, Zn and Se on reproductive LV chickens. Adv Natural Sci: Nanosci Nanotechnol 6: 35017.
Oberdörster G, Oberdörster E, Oberdörster, J (2005) Nanotoxicology: An emerging discipline evolving from studies of ultrafine particles. Environ Health Perspect. 113: 823-839.
Pineda L, Chwalibog A, Sawosz E, Lauridsen C, Engberg R, Elnif J (2012) Effect of silver nanoparticles on growth performance, metabolism and microbial profile of broiler chickens. Archive Anim Nutri 66: 416-429.
Radwan NL, Salah Eldin, TA, EL-Zaiat AA, Mostafa MASA (2015) Effect of dietary nano-selenium supplementation on selenium content and oxidative stability in table eggs and productive performance of laying hens. Inter J Poult Sci 14: 161-176.
Sahoo A, Swian RK, Mishra SK, Jena B (2014) Serum biochemical indi ces of broiler birds fed on inorganic, organic and nano zinc supplementation diets. Inter J Recent Sci Res 5: 2078- 2081.
Sagadevan S, Periasamy M (2014) Recent trends in nanobiosensors and their applications-a review. Rev Adv Mater Sci 36: 62-69.
Sawosz F, Pineda L, Hotowy A, Hyttel P, Sawosz E, Szmidt M, Niemiec T, Chwalibog A (2012) Nano-nutrition of chicken embryos. The effect of silver nanoparticles and glutamine on molecular responses, and the morphology of pectoral muscle. Comp Biochem Physiol 161: 315-319.
Scott A, Vadalasetty KP, Sawosz E, Łukasiewicz M, Vadalasetty RKP, Jaworski S, Chwalibog A (2016) Effect of copper nanoparticles and copper sulphate on metabolic rate and development of broiler embryos. Anim Feed Sci Technol 220: 151-158.
Sekhon BS (2012) Nanoprobes and their applications in veterinary medicine and animal health. Res J Nanosci Nanotechnol 2: 1-16.
Swain PS, Rao SBN, Rajendran D, Dominic G, Selvaraju S (2016) Nano zinc, an alternative to conventional zinc as animal feed supplement: A review. Anim Nutri 2: 134-141.
Verma KA, Singh VP, Vikas P (2012) Application of nanotechnology as a tool in animal products processing and marketing: an overview. Amer J Food Technol 7:445-451.
Vijayakumar MP, Balakrishnan V (2014) Effect of calcium phosphate nanoparticles supplementation on growth performance of broiler chicken. Indian J Sci Technol 7: 1149-1154.
Wang C, Wang MQ, Ye SS, Tao WJ, Du YJ (2011) Effects of copper-loaded chitosan nanoparticles on growth and immunity in broilers. Poult Sci 90: 2223-2228.
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