Protective Effects and Its Relative Mechanisms of Low Dose Ionizing Radiation on pancreatic cells of Male Diabetic Rat’s
Waer, H., Mahmoud, R., Helmy, S. (2012). Protective Effects and Its Relative Mechanisms of Low Dose Ionizing Radiation on pancreatic cells of Male Diabetic Rat’s. EKB Journal Management System, 49(1), 521-538. doi: 10.21608/ejhm.2012.16196
Hanaa F. Waer; Rabab M. Mahmoud; Seham A. Helmy. "Protective Effects and Its Relative Mechanisms of Low Dose Ionizing Radiation on pancreatic cells of Male Diabetic Rat’s". EKB Journal Management System, 49, 1, 2012, 521-538. doi: 10.21608/ejhm.2012.16196
Waer, H., Mahmoud, R., Helmy, S. (2012). 'Protective Effects and Its Relative Mechanisms of Low Dose Ionizing Radiation on pancreatic cells of Male Diabetic Rat’s', EKB Journal Management System, 49(1), pp. 521-538. doi: 10.21608/ejhm.2012.16196
Waer, H., Mahmoud, R., Helmy, S. Protective Effects and Its Relative Mechanisms of Low Dose Ionizing Radiation on pancreatic cells of Male Diabetic Rat’s. EKB Journal Management System, 2012; 49(1): 521-538. doi: 10.21608/ejhm.2012.16196

Protective Effects and Its Relative Mechanisms of Low Dose Ionizing Radiation on pancreatic cells of Male Diabetic Rat’s

The Egyptian Journal of Hospital Medicine
Article 2, Volume 49, Issue 1, October 2012, Page 521-538  XML PDF (2.37 MB)
Document Type: Original Article
DOI: 10.21608/ejhm.2012.16196
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Authors
Hanaa F. Waer1; Rabab M. Mahmoud1; Seham A. Helmy2
1Atomic Energy Authority. National Center For Radiation Research and Technology, Biology Department - (King Khalid University Faculty of Science – University Center for Girls)
2Suez Canal University, Faculty of Veterinary Medicine, Department of Cytology and Histology
Abstract
Back ground & Aim of the work: Diabetes mellitus (DM) is a chronic metabolic disorder brings great danger to human health. Low-dose-rate radiation modulates various biological responses including carcinogenesis, immunological responses and diabetes. This study  examined the effect of low doses of irradiation on the pathological and ultrastructural  progression of type I diabetes in rats inducted by Streptozotocin.
Material and Methods: The present study was done on 80 healthy adult albino male rats 9 weeks age, in the weight range from (150–200 gm). Rats were grouped to 4 groups they were cared  according to the Guiding Principle in the Care and Use of Animals. Diabetes was induced by a single intraperitoneal injection of freshly prepared Streptozotocin (STZ- 45 mg/kg b.w.).
Whole body gamma irradiation was performed using Caesium -137. Animals were exposed to fractionated dose levels of 0.5 Gy/week of γ-radiation for 3 and 6 weeks. The body weight, blood glucose and insulin levels were measured after 3 and 6 weeks. Small blocks of pancreatic tissues  of different groups were removed and prepared for  pathological and ultrastructure examination.
 Results: An elevated level of glucose and decreased level of insulin in blood were first detected at 3 and 6 weeks of age in the STZ treated rats. There was significant and remarkable tendency of  gaining normal levels of both blood glucose and blood insulin by irradiation exposure especially after 6 weeks of irradiation.  Both suppression of cell death and cellular injury induced by STZ were also observed by EM examination in 3 week  and 6 weeks.
Conclusion: The present results indicated that treatment with 0.5 Gy γ rays suppresses progression of type I diabetes in STZ rats.
 
Keywords
insulin glucose; electron microscope- pathology –STZ
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