Comparative Effect of Amylose Concentration in Brown and White Rice on Hepatocellular Insufficiency Using Rat Bioassay

IF 0.6 Q4 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Health Scope Pub Date : 2023-11-08 DOI:10.5812/healthscope-134717

Natasha Azhar, Shaista Jabeen, Maria Aslam, Habib Ur Rehman

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Abstract

Background: The scientific name of rice is Oryza sativa. It is one of the important staple human foods. There are more than 110,000 cultivated varieties of rice, most widely known and grown. Nutrient concentration may vary depending on production, environment, pre- and post-harvesting treatment, and processing. Cooked rice with high amylose content effectively controls metabolic disorders, serum blood glucose levels, and lipid profile and is also effective in weight loss. Objectives: This study aimed to determine the comparative effect of amylose concentration in brown and white rice on hepatocellular insufficiency in healthy rat models. Methods: We divided 25 rats into 5 groups (G0, G1, G2, G3, and G4). There were 5 rats in each group. Group 0 was the control group on a normal diet. Group 1 was fed white rice flour, G2 was fed cooked white rice, G3 was fed brown rice flour, and G4 was fed cooked brown rice. Free access to food and water was secured. Weight changes, blood glucose, and lipid profiles were analyzed pre and post-treatment. Results: Rats on white rice feed showed weight gain, increased blood glucose, cholesterol, triglycerides, and low HDL levels. However, rats on brown rice feed showed less weight gain (P < 0.05), a lower increase in blood glucose (P < 0.05), high HDL, lower LDL cholesterol, and triglycerides. The pancreas and liver histopathology showed no major changes due to the short trial duration. Conclusions: Rats fed white rice showed ineffective results disturbing biological parameters as compared to those rats which were fed brown rice. Due to low amylose content and the presence of antioxidants, flavonoids, and high fiber content, brown rice shows beneficial effects in controlling and maintaining relevant biological parameters.

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用大鼠生物测定法比较糙米和白米直链淀粉浓度对肝细胞功能不全的影响

背景:水稻的学名是Oryza sativa。它是人类重要的主食之一。水稻的栽培品种超过11万种，其中最为人所知和种植的品种最多。养分浓度可能因产量、环境、采收前后处理和加工而异。直链淀粉含量高的米饭能有效控制代谢紊乱、血清血糖水平和血脂，对减肥也有效果。目的:研究糙米和白米中直链淀粉浓度对健康大鼠肝细胞功能不全的影响。方法:将25只大鼠分为5组(G0、G1、G2、G3、G4)。每组5只。0组为正常饮食的对照组。1组饲喂白米粉，G2组饲喂熟白米粉，G3组饲喂糙米粉，G4组饲喂熟糙米粉。可以免费获得食物和水。分析治疗前后体重变化、血糖和血脂。结果:饲喂白米饲料的大鼠体重增加，血糖、胆固醇、甘油三酯升高，高密度脂蛋白水平降低。然而，糙米饲料的大鼠体重增加较少(P <0.05)，血糖升高较低(P <0.05)，高HDL，低LDL胆固醇和甘油三酯。由于试验时间短，胰腺和肝脏组织病理学未见重大变化。结论:与以糙米为食的大鼠相比，以白米为食的大鼠对生物学参数的干扰效果较差。糙米由于直链淀粉含量低、抗氧化剂、类黄酮含量高、纤维含量高，在控制和维持相关生物学参数方面表现出有益的作用。

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来源期刊

Health Scope PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

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16.70%

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