Medical Ozone Treatment Alleviate Blood Oxidative Stress And Pancreas Damage In an Alloxan-Induced Diabetes Model in Rats

Shaymaa Falih, Bushra F. HASAN
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Abstract

Diabetic mellitus (DM ) is a prevalent systemic disease affecting a human and animals. The effects of diabetes are devastating and well documented. The increased production and/or ineffective scavenging of reactive oxygen species (ROS) may play a critical role in the development of diabetic complications. Therefore, it seems reasonable that antioxidants can play an important role in the improvement of diabetes. So, use medical ozone to study if it can regulate the oxidative complications of DM .The study was carried out on forty eight  albino females rats included six groups Group I (Control) : 8 female rats were  injected  IP  with  citrate buffer (0.1 M, pH 5) daily for 6 weeks ,Group II (MO ): 8 female rats were  injected  IP 1.1 mg/kg  b.w of MO daily for 6 weeks ,Group III (DM): 8 female rats induce diabetes by injection IP with  freshly prepared alloxan 150 mg/kg b.w in citrate buffer (pH 5), Group IV(DM+MO): 8 diabetic female rats were injected  IP 1.1 mg/kg  b.w of MO daily for 6 weeks,  group V(DM + Insulin): 8 diabetic female rats were injected subcutaneously 0.75 IU/100 g b.w. of Insulin daily for 6 weeks ,Group VI(DM +MO +Insulin):8diabetic female rats were injected IP 1.1 mg/kg  b.w of MO and Insulin  injected subcutaneously at a dose of 0.75 IU/100 g b.w , respectively daily for 6 weeks. experimental study parameters include  antioxidant enzymes assay and histology the study for pancreas.
医用臭氧治疗减轻阿脲诱导糖尿病模型大鼠的血液氧化应激和胰腺损伤
糖尿病(DM)是一种影响人类和动物的流行性系统疾病。糖尿病的影响是毁灭性的,有据可查。活性氧(ROS)的产生增加和/或清除不力可能在糖尿病并发症的发展中起到关键作用。因此,抗氧化剂在改善糖尿病方面发挥重要作用似乎是合理的。因此,利用医用臭氧来研究它是否能调节糖尿病的氧化并发症,该研究以 48 只白化雌性大鼠为对象,分为六组 I 组(对照组):8 只雌性大鼠每天 IP 注射柠檬酸缓冲液(0.1 M,pH 值 5),连续 6 周:8 只雌性大鼠每天 IP 注射 1.1 毫克/千克体重的 MO,连续 6 周;III 组(DM):8 只雌性大鼠在柠檬酸缓冲液(pH 5)中 IP 注射新鲜制备的阿脲 150 毫克/千克体重,诱发糖尿病;IV 组(DM+MO):8 只糖尿病雌性大鼠每天 IP 注射 1.1 毫克/千克体重的 MO,连续 6 周;V 组(DM + 胰岛素):实验研究参数包括抗氧化酶测定和胰腺组织学研究。
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