The effect of some food additive on the liver function in laboratory animal

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Research Paper 01/10/2018
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The effect of some food additive on the liver function in laboratory animal

Sabreen Majeed Mohammed
Int. J. Biosci. 13(4), 18-23, October 2018.
Copyright Statement: Copyright 2018; The Author(s).
License: CC BY-NC 4.0

Abstract

Phosphorus is an essential element as it represents the second most abundant mineral in the human body. Therefore, this study was designed to investigate the effect of phosphoric acid additive in water on some hematological and biochemical parameters in rabbits. Twelve female adult rabbits were divided randomly into two groups equally. The first group received 10% of phosphoric acid in water while the second group was received tap water as control group. The blood was collected in zero day and in 66 day. The result revealed that the Aspartate Aminotransferase (AST), Alanine Aminotransferase (ALT), Alkaline Phosphatase (ALP) and inorganic phosphorus were significantly increased (P <0.05) in serum of treated group as compared with control group, while the total calcium concentration was significantly decreased (P <0.05) in serum of treated group in comparison with control group. On the other hand the results of the hematological parameters showed a significant decreasing (P <0.05) in the RBC count, Hb and PCV of the treated group, whereas the WBC count was significantly (P<0.05) increased in the treated group. In conclusion, the phosphoric acid additive in water caused several changes in some biochemical and hematological parameters in rabbits.

Barse AV, Chakrabarti T, Ghosh TK, Pal AK, Jadhao SB. 2006.One-tenth dose of LC50 of 4 tert-butylphenol cause endocrine disruption and metabolic changes cyprines carpio. Pesticide Biochem-Physiology 86, 172-179.

Calvo MS. 2013. Acute effect of oral phosphate-salt ingestion on serum phosphorus, serum ionized calcium and parathyroid hormone in young adults. American Journal of Clinical Nutrition 47, P 1025.

Caravate EM. 2007. Metabolic abnormalities associated with phosphoric acid ingestion. American Society of Health-System Pharmacists 64, 1500-5.

Champe E. 2008. Complex Lipid Metabolism. chapter 17. Lippincott’s illustrate Reviews of Biochemistry 4th edition.

Coles EH. 1986. Veterinary Clinical Pathology. 4thed.

Dacic JV, Lewis   SM. 1984. Practical Heart Disease. 6th ed. Edinburgh, Churchiu, P 40-55.

De la Torre FR, Salibian A, Ferrari L. 2000. Biomarkers assessment in juvenile cyprinu, carpio exposed to water borne cadmium, Environmental Pollution 109, 277-282.

Deluca FH. 2007. Canto MT. Role of vitamin D in immunological functions. FASEB Journal 15, 2579-2586.

Fischbach F. 1999. A Manual of Laboratory & Diagnostic Tests. 1999;6th ed. Published by Library of Congress, USA, P 430-432.

Frisch R,  Wyshak G. 1994. Carbonate beverages, dietary calcium, the dietary calcium /phosphorus ratio, and bone fracture in girls and boys, Journal of Adolescent Health 15, 210-215.

Green JH. 1994. An Introduction to Haematophysiollogy. 4thed. New York. Tokyo, P 5-6.

Green I. 1979. The effect of phosphate on erythrocyte and hemoglobin. Journal Biological Chemistry 63, 3393-3399.

Guyton AC, Hall JE. 2000. Text Book of Medical Physiology. Parathyroid hormone Calcitonin, Calcium and Phosphate Metabolism Vitamin D, Bone and Teeth, P 899-908.

Hayes AM. 2004. Pathophysiology of Liver. In Veterinary Pathophsiology (Ed.) Dunlop R. H. Blak well publication; sydeny, p 396.

Kennelly PJ, Rodwell VW. 1985. Harper’s Illustrated Biochemistry, McGraw-Hill Global Education Holding. p 52-64.

King   EJ, Armstrong AR. 1988. Calcium, phosphorus and phosphatases In: Practical Clinical Biochemistry. New Delhi, CBS Pub, p 458.

Mahan K, Escott-Stump S. 2000. Food, Nutrition and Diet Therapy. Philadelphia: W.B Saunders Company, p 22.

Murphy-Guntekunst L, Uribarri J. 2005. Phosphorus-enhanced meats; part 3. Journal of Renal Nutrition 15, 33-34.

Reitman S, Frankel SJ. 1957. Acolorimetric method for determination of serum oxaloacetatic acid pyruvic transaminases. American Journal of Clinical Pathology 28, 56-63.

Shils M, Olson J, Shike M, Ross A. 1999. Modern Nutrition and Health Disease. Baltimore: Williams & Wilkins, p 17.

Sood R. 1996. Haematology for Student and Practitioners.4th ed., Jaypee B rothers. Medical. Publisher. (P). LTD. India, p 318-325.

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