Experimental animal Biology

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Effects of low frequency of electromagnetic fields in blood parameter of broilers, albumin quality and hatchability

Document Type : Article

Authors

1 Associate Professor, Department of Animal Science, University of Lorestan, Postal Code 465, Khoram Abad, Lorestan, Iran.

2 Former M. Sc. Student, Department of Animal Science, University of Lorestan, Postal Code 6826734781, Khoram Abad, Lorestan, Iran

Abstract

Abstract

The Effects of low frequency of electromagnetic fields in albumin quality, blood parameter, and hatchability on one day chicken broiler.  With the spread of technology, organisms with high diversity are exposed to electromagnetic fields (EMF). In order to study the effect of low frequency of electromagnetic fields during storage of eggs, 138 fertile eggs (Ross strain) were selected. Eggs were exposed to 50-Hz electromagnetic field with 50 HZ frequency and 5.5 MT in different time; (control), 8, 16, 24, 32 and 64 hours, with six replications. Duration of electromagnetic field weren’t effect on albumin quality, Haugh unit, cholesterol, triglycerides and total protein level of serum significantly (P

Keywords

References
Bahaddini, A.; Parsai, M.; Sadat, M.; (2002). Effect of electromagnetic field on liver activity and blood cells in rat. Science and Variety of Animal Biology; 29-31.
Baharara, J.; Zahedifar, Z.; (2012). The effect of low-frequency electromagnetic fields on some biological activities of animals. Arak Medical University Journal (AMUJ); 15(66): 80-93.
Batellier, F.; Couty, I.; Picard, D.; Brillard, J.P.; (2008). Effects of exposing chicken eggs to a cell phone in "call" position over the entire incubation period. Theriogenology; 69(6): 737-745.
Berg, H.; (1993) .Electrostimulation of cell metabolism by low frequency electric and electromagnetic fields. Bioelectrochemistry and Bioenergetics; 2: 1-25.
Cleveland, R.F.; Ulcek, J.L.; (1999). Questions and answers about biological effects and potential hazards of radiofrequency electromagnetic fields. Federal Communications Commission Office of Engineering and Technology.
Delgado, J.; Leal, J.; (2002). Embryological changes induced by weak, extremely low frequency electromagnetic fields. Journal Anatomy 1982; 134(3): 533-551.
Drogue W. Free radicals in the physiological control of cell function. Physiological Reviews; (82) 47-95.
Fattahiara, S.; Mohammadzadeh, S.; Parizadian Kavan, B.; (2017). Effect of lectromagnetic   fields before incubation on hatchability and serum parameters of one-day old chicks. American Journal; 7(3): 105-114.
Ibrahim, M.; El-Ashary, M.; Ali, E.; (2008). The influence of 50 Hz magnetic field on liver function. Romanian Journalof Biophysics; (18): 113-22.
Kula, B.; Sobczak, A.; Grabowska-Bochenek, R.; (1999). Effect of electromagnetic field on serum biochemical parameters in steelworkers. Journal of occupational Health; 41: 177-180.
Kula, B.;(1999). Effect of electromagnetic fields on the living body. II. Changes in alanine and aspartate aminotransferase activities in subcellular fractions of the liver of guinea pigs. Med Pr; 39(1): 8-14.
Lahijani, MS.; Ghafoori, M.; (2000). Teratogenic effects of sinusoidal extremely low frequency electromagnetic fields on morphology of 24 hr chick embryos. Indian Journal of Experimental Biology; 38(7): 692-9.
Lahijani, MS.; Nojoosh, SE.; Siadat, SF.; (2007). Light and electron microscope studies of effects of 50 Hz electromagnetic fields on preincubated chick embryo. Electromagnetic Biology and Medicine; 26(2): 83-98.
Lahijani, S.; Bigdeli, M.; Khodaeian, S.; (2011). Effect of 50 Hz electromagnetic fields on the histology, apoptosis, and expression of c-Fos and 46-catenin on the livers of preincubated white Lenghorn chicken embryos. Electromagnetic Biology and Medicine; (30): 158-169.
Lotfi, A.; AghdamShahryar, H.; Narimani-Rad, M.; (2012). Effects of exposure to 50 Hz electromagnetic fields during incubation on some of serum biochemical measures in newly-hatched chicks. Journal of Biodiversity and Environmental Sciences; 6(16): 49-53.
Majidi, F.; Alavi, S.; Azimipirsarai, S.; Heydari, A.; Askari, F.; (2012). Study of effect of electromagnetic field in high pressure of Zanjan with GIS technology. Health and Environment Journal; 5(12): 379-386.
Moss, DW.; Henderson, AR.; Kachmar, JF.; (1986). Enzymes. In: Tietz NW, editor. Textbook of clinical chemistry. Philadelphia: W. B. Saunders Company; 691-697.
Nemesanszky, E.; (1996). Enzyme tests in hepatobiliary disease. In: Moss DW, Rosalki SB, editors. Enzyme tests in diagnosis. London Arnold; 32-35.
Sharma, V.; Kumar, N.; (2010). Changes in honeybee behavior and biology under the influence of cellphone radiations. Current Science; 98: 13-76.
Simko, M.; Mattsson, MO.; (2004). Extremely low frequency electromagnetic fields as effectors of cellular responses in vitro: possible immune cell activation. Journal of Cellular Biochemistry; 93: 83-92.
Shafey, TM.; Shalaby, MI.; Bayoumi, MS.;(2007). Effects of electric field during incubation of eggs on the hatchability and post-hatch performance of meat chickens. International Journal of Poultry Science; (6) 1-7.
Shafey, TM.; Aljumaah, RS.; Swillam, SA.; Al-mufarrej, I.; Al-abdullatif, AA.; Ghannam, MM.; (2010). Effects of short term exposure of eggs to magnetic field before incubation on hatchability and post-hatch performance of meat chickens. Saudi Journal of Biological Sciences; (18): 381- 386.
Sieroń, A.; Brus, H.; Konecki, J.; Cieślar, G.; Szkilnik, R.; Nowak, P.; Noras, Ł.; Kwieciński, Kostrzewa, RM.; Brus, R.; (2007). Effect of low frequency electromagnetic fields on [3H] glucose uptake in rat tissues.Polish Journal of Environmental Studies; (16): 309- 312.
Sharifnia, Kh.; ShamsLahiji, M.; Rajabi, H.; (1998). Effect of electromagnetic fields 50 Htz on egg embryo. 13th international electricity conference- Tehran.
Saburi, A.; (2008). Effect of electromagnetic field with low frequency before incubation on structural tissue, biocellular and liver biochemical liver in chicks. Dissertation. Shahid Beheshti University.
Tilki, M.; Saatci, M.; (2004). Effects of storage time on external and internal characteristics in partridge (Alectorisgraeca) eggs. Revue Méd. Vét; 155(11): 561-564.
Zare, S.; Hayatgeibi, H.; Alivandi, S.; (2005). Effects of whole-body magnetic field on changes of glucose and cortisol hormone in guinea pigs. American Journal of Biochemistry and Biotechnology; 1(4): 217-219.
 
 
 
Experimental animal Biology
Volume 7, Issue 1
September 2018
Pages 89-96
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