STUDY OF AMYLASE ENZYME AND AMYLASE CREATININE CLEARACE RATE IN NON INSULIN DEPENDENT DIABETES MELLITUS | ||
Journal of University of Anbar for Pure Science | ||
Article 20, Volume 2, Issue 3, December 2008, Pages 82-87 PDF (418.48 K) | ||
Document Type: Research Paper | ||
DOI: 10.37652/juaps.2008.15641 | ||
Author | ||
BAKAA H. ISMAIL* | ||
Anbar University - College of Science | ||
Abstract | ||
The aim of this study was determined to check the effect of NIDDM on Amylase Enzyme and amylase creatinine clearance rate. The specimens were collected from 48 patients suffering from Non Insulin Dependant Diabetes Mellitus (23 females,25 males). Amylase tests, creatinine test in serum and urine were done. The results show increased of amylase level in serum, urine amylase and amylase ceratinine clearance rates were (262, 520,7.8) respectively when compared with the control were (140, 313,3.19) respectively. | ||
Keywords | ||
NIDDM | ||
References | ||
1- Foster; Race, DVM, Marty Smith, DVM, Foster & Smith, (2001) Pancreas: Anatomy & Function. pp 461.
2- Green, J. H. (1985). Control system– Hormones. In: Basic clinical physiology. 3ed edition. Oxford medical publication. New York. Tornto. p 114-121.
3- Smith C. F. L. Tilly and Francis W. K. (1997): The 5 minute Veterinary Consult. pocket Companion to the Fourth Edition of Textbook of Vetreinary Internal Medicine Stephen j.
4- Warshaw, A. L.; and Fuller, A. F. JR. (1975): The specificity of increased renal clearance amylase in diagnosis of acute pancreatitis. New Eng J. Med.; 292: 325-328.
5- Seno, T.; Harada, H.; Ochik. (1995): Serum level of six pancreatic enzymes related to the degree of renal dysfunction. Am J Gastroenterology; 90 (11): 2002-5.
6- World Health Organization: Diabetes Mellitus: Report of a WHO study group. World Health Org., 1985 (Tech. Rep., No 727). (Cited by Nanniperi., 1995.)
7- Mcmurry, J. R. (1988): Plasma protein. InGowenlock, A. H., Mcmurry, J. R., and Mclauchlan, D. M., Varlyeys practical clinical biochemistry (eds). Sixed. Heinemann medical books London. pp 1050.
8- Underwood, T. (1979). Beckman: Automated stas/ Routine Analyzer system operating and service instruction. USA.
9- Abou- Seif MA, and Youssef AA (2004): Evaluation of some biochemical changes in diabetes patients. Clin Chem Acta Aug 16; 346 (2): 161-70.
10- Pap, A. (2004): Effects of insulin and glucose metabolism or pancreatic exocrine function. Int J Diabetes & Metabolism, 12: 30-34.
11- Takacs T, Hegyi P, Jarmai K,. (2001): CCK Fails to promote pancreatic regeneration in diabetic rates following the induction of experimental pancreatitis. Pharmacol Res, 44 (5): 363-372.
12- Balk; MW, Lang CM, White WJ Munger BL, (1975): Exocrine pancreatic dysfunction in guinea pigs with diabetes mellitus. Lab Invest, 32; 28-32.
13- Costanzo, L. S. (1998). Endocrine physiology. In: Physiology. 2nd ed. Lipcott and Williams. Philadelphia. P 264-268.
14- Saito, A, Williams, JA, and Kanno T, P. (1980): Potentiation of cholecytokinin- induced exocrine secretion by both exogenous and endogenous secretion in isolated and perfused rat pancreata. J Clin Invest, 65: 777-782.
15- Donald, M- Mock, James, H. Grendell, John Cello; and R. Curtis; Morris. (1987): pancreatitis and alcoholism disorder the renal tubule and impair reclamation of some low molecular weight proteins. Gastroenterology; 92: 161-70.
16- Phili D. H, Annegret, K. J. N., Henning S., Tobias Zekorn, Hans. (2002): Chronic pancreatitis and Diabetes Mellitus. Pancreatology; vol.2 No.1, 30-33.
17- Anderson, J. R. (1976): Muris Textbook of pathology ed10. Edward Arnold publisher. London. p 654.
18- Mackay. C. Murray W.R. (2005): The Amylase ceratinine clearance ratio in acute pancreatitis. British Journal of Surgery; Vol 64, Issue 3, pp 189-191. | ||
Statistics Article View: 140 PDF Download: 151 |