Morphological and histological kidney structure in diabetic rats model treated with ethanol extracts of jengkol fruit peel (Archidendron pauciflorum)

D. Malini, Nur Fitriani, Adnin Laila, N. Ratningsih, T. Setiawati
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Abstract

In a long term, diabetes mellitus (DM) leads to nephropathy due to glomerular hyperfiltration. One of the plant used as a diabetic drug by the community in Karangwangi Village, Cianjur Regency, West Java is the fruit peel of jengkol. Therefore, this study aims to determine the effect of the ethanolic extract of Jengkol fruit peel (EEJFP) toward the morphological and histological structure on the kidney of the diabetic rat model. The method adopted was the Randomized Design (CRD) with 6 treatments namely NC (Carboxyl Methyl Cellulose (CMC) 0.5%), PC (CMC 0.5%), Pb (Glibenclamide 5 mg/kg BW), P1, P2, and P3 (EEJFP 385; 770; and 1,540 mg/kg BW) with 4 replications for 14 consecutive days. Furthermore, the induction of diabetes with streptozotocin dose of 60 mg/Kg BW was performed intravenously in experimental animals except for the NC group. The parameters observed include relative weight, morphological, and histological structure of kidney which include glomerular diameter, Bowman space distance, and percentage of proximal tubular cell necrosis. The non-parametric and parametric data were tested by Kruskal Wallis and ANOVA test as well as Duncan's follow-up test, respectively. The results showed that there was no significant difference in the morphological structure of the kidney between treatment groups.  Furthermore, the relative weights of kidney in the PC, Pb, P1, and P3 groups were larger and significantly different compared to NC and P2 also, the histological structure showed that the glomerular diameter (65.43 ± 0.7 m), Bowman space distance (4.19 ± 1.7 µm), and the percentage of proximal tubular cell necrosis (24.6 ± 5.5%) at P2 were not significantly different from NC. Based on this results, it was concluded that EEJFP has no effect on the kidney’s morphological structure, however, it decreases its relative weight and repair the kidney’s histological damage of the diabetic rat model with the optimum dose of 770 mg/kg BW.
荆柑果皮乙醇提取物对糖尿病大鼠肾脏结构的形态学和组织学影响
长期来看,糖尿病(DM)会因肾小球高滤过而导致肾病。西爪哇Cianjur Regency Karangwangi村的一种社区用作糖尿病药物的植物是jengkol的果皮。因此,本研究旨在确定银杏果皮乙醇提取物(EEJFP)对糖尿病大鼠模型肾脏形态学和组织学结构的影响。采用的方法是随机设计(CRD),共6个处理,即NC(羧甲基纤维素0.5%)、PC(CMC 0.5%)、Pb(格列本脲5mg/kg BW)、P1、P2和P3(EEJFP 385;770;和1540 mg/kg BW),连续14天4次重复。此外,在除NC组外的实验动物中用60mg/Kg BW的链脲佐菌素剂量静脉内诱导糖尿病。观察到的参数包括肾脏的相对重量、形态学和组织学结构,包括肾小球直径、Bowman间距和近端肾小管细胞坏死的百分比。非参数和参数数据分别通过Kruskal-Wallis和ANOVA检验以及Duncan的后续检验进行检验。结果显示,治疗组之间的肾脏形态结构没有显著差异。此外,与NC和P2相比,PC、Pb、P1和P3组的肾脏相对重量更大且有显著差异。组织学结构显示,P2组的肾小球直径(65.43±0.7 m)、Bowman间距(4.19±1.7µm)和近端肾小管细胞坏死百分比(24.6±5.5%)与NC组无显著差异。根据这一结果,可以得出结论,EEJFP对糖尿病大鼠模型的肾脏形态结构没有影响,但在770mg/kg BW的最佳剂量下,它可以降低其相对重量并修复肾脏的组织学损伤。
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