Nair Jiji U, Vyas Hitesh A, Nariya Mukesh B
,Department of Basic Principles, ITRA, Jamnagar, Gujarat, India.
Department of Pharmacology, ITRA, Jamnagar, Gujarat, India.
Ayu. 2021 Oct-Dec;42(4):169-174. doi: 10.4103/ayu.ayu_229_21. Epub 2023 May 17.
implies the combination or admixture of different (properties) in a (substance). Every in this world is composed of different varying in their quantity and potency. The final resultant action of the depends on the combination of and their interaction with each other.
The present study was aimed to explain the manifestation of (action) of a through its (properties) and to evaluate the effect of the combination of (cool property) with different other on digestion and metabolism in an animal model.
The test drugs ( Linn.) and ( Linn.) were dried and powdered. A total of 18 adult healthy male and female Wistar strain albino rats were grouped randomly into three groups out of which the first was the control group and administered with distilled water. The second and third groups were fed with powder of and , respectively, in the suspended form in distilled water. Test drugs were administered daily for 12 consecutive days. During the experimental phase, relative food intake, relative water intake, relative urine output, relative stool output, and food conversion ratio were recorded on the 3, 6, 9, and 12 day among which the 3 day was considered as the initial day for the assessment, whereas body weight was measured from the 1 day of the study. Throughout the study, the main focus was on how these parameters change in and -treated rats which are having different combinations of with reference to the control group.
Both and groups showed a nonsignificant increase in relative food and water intake, nonsignificant increase in relative urine output, significant decrease in relative stool output, and significant increase in food conversion ratio. Body weight was nonsignificantly increased in group, whereas it was nonsignificantly decreased in group. This study aimed to show how the are interacting and resulting in either by dominating or suppressing or giving a combined effect of . This study provides initial data regarding the concept of (combination of properties).
The study concludes that all the in a interact and exhibit their resultant action, i.e., based on , with emphasis on example of assessment of the effects of , namely, and on physiological parameters (digestion and metabolism) have been assessed experimentally in animal models to evaluation of the combination of .
意味着不同(特性)在一种(物质)中的结合或混合。世界上的每种(物质)都是由数量和效力各不相同的不同(成分)组成的。(物质)的最终综合作用取决于(成分)的组合及其相互作用。
本研究旨在通过一种(物质)的(特性)来解释其(作用)的表现,并在动物模型中评估(寒性特性)与其他不同(物质)的组合对消化和新陈代谢的影响。
将受试药物(植物名称1)和(植物名称2)干燥并研磨成粉末。总共18只成年健康雄性和雌性Wistar品系白化大鼠随机分为三组,其中第一组为对照组,给予蒸馏水。第二组和第三组分别以蒸馏水悬浮液的形式喂食(植物名称1)和(植物名称2)的粉末。连续12天每天给予受试药物。在实验阶段,在第3、6、9和12天记录相对食物摄入量、相对饮水量、相对尿量、相对粪便量和食物转化率,其中第3天被视为评估的初始日,而体重从研究的第1天开始测量。在整个研究过程中,主要关注与对照组相比,具有不同(物质)组合的(植物名称1)和(植物名称2)处理组大鼠中这些参数如何变化。
(植物名称1)组和(植物名称2)组的相对食物和水摄入量均有不显著增加,相对尿量有不显著增加,相对粪便量显著减少,食物转化率显著增加。(植物名称1)组体重有不显著增加,而(植物名称2)组体重有不显著减少。本研究旨在展示(物质)如何相互作用,并通过主导、抑制或产生综合效应来导致(某种结果)。本研究提供了关于(特性组合)概念的初步数据。
该研究得出结论,一种(物质)中的所有(成分)相互作用并表现出其综合作用,即基于(特性)的(某种结果),重点是以评估(植物名称1)和(植物名称2)对生理参数(消化和新陈代谢)的影响为例,已在动物模型中进行实验评估以评价(特性组合)。
