The Histomorphometric and Histological Evaluation of Renal Cortex in Response to Sleep Disturbance in Adult Male Rat

Zahraa Aboud Mohsin, Huda Rashid Kamoona
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Abstract

Background: Sleep disturbance affects kidney structure reflected in functional derangement causing renal diseases; this occurs through sympathetic system activation and inflammation. Changes in the renal vascular bed affect the renal corpuscle-related structures such as the glomerular area, and urine space, in addition to the kidney tubular apparatus. Sleep deprivation or sleep interruption differ in their effect on systolic blood pressure causing renal tissue changes that predispose to chronic kidney disease (CKD). Aim of the study: The study aims to evaluate the effect of sleep disturbance on histological changes of renal tissue in control and experiment groups. Patients and methods: An experimental study on a sample of thirty adult male albino Rats, was divided into three groups (10 animals per group). The control group had a normal sleep rhythm which was 12 hours in the dark and 12 hours in light. Group A:  at 12 hours light and 12 hours dark with the production of a flashlight at three-time intervals, every 2 hours, during their sleep period, while Group B includes rats that were exposed to a reduction in sleep time by continuous flashlight stimulation for 7 hours per day, during their sleep period. Then, the kidneys were dissected and prepared for histological evaluation and quantification. The experiment lasted for 14 days for all groups, and the study was performed during the period between the 1st of January 2023 to the 1st of August 2023 in the anatomy department in  Al- Nahrain Medical College. Results: This study showed the effect of sleep disturbance patterns (sleep reduction, and sleep interruption) by light stimulation in adult male rats on cortical renal tubules and cortical vessels. A prominent dilatation in cortical renal tubules with the presence of cortical hemorrhagic areas and cortical necrosis with inflammatory cell infiltration was seen to be associated with sleep deprivation prominently. Histological changes of renal corpuscular areas, glomerular tuft area, and renal space area showed significant variations in sleep disturbance groups, in a p-value ≤ 0.05. Conclusions: Changes in sleep patterns indicate the importance of sleep in maintaining renal cortical tissue structural integrity by its effect on local hemodynamics of cortical vessels that ultimately affect the structure and area of the renal corpuscles. Sleep deprivation represents a powerful factor for renal cortical changes that lead to corpuscular and tubular damage.
成年雄性大鼠肾皮质对睡眠障碍的组织形态学和组织学评估
背景:睡眠障碍会影响肾脏结构,导致功能失调,引发肾脏疾病;这是通过交感神经系统激活和炎症发生的。肾脏血管床的变化除了影响肾小管装置外,还影响肾小球区和尿液空间等与肾小球相关的结构。睡眠不足或睡眠中断对收缩压的影响各不相同,它们都会导致肾组织发生变化,从而诱发慢性肾病(CKD)。研究目的本研究旨在评估睡眠障碍对对照组和实验组肾组织变化的影响。患者和方法实验研究以 30 只成年雄性白化大鼠为样本,分为三组(每组 10 只)。对照组有正常的睡眠节律,即 12 小时黑暗和 12 小时光明。A组:在12小时光照和12小时黑暗中,在其睡眠期间,每隔2小时用手电筒照射3次;B组包括在其睡眠期间,每天用手电筒连续照射7小时,以减少其睡眠时间。然后,解剖肾脏并准备进行组织学评估和量化。所有实验组的实验时间均为 14 天,研究于 2023 年 1 月 1 日至 2023 年 8 月 1 日期间在 Al- Nahrain 医学院解剖系进行。研究结果这项研究显示了光刺激对成年雄性大鼠睡眠干扰模式(睡眠减少和睡眠中断)对肾皮质小管和肾皮质血管的影响。肾皮质小管明显扩张,出现皮质出血区和皮质坏死并伴有炎性细胞浸润,这与睡眠不足有显著关联。在睡眠障碍组中,肾小球海绵体面积、肾小球簇面积和肾间隙面积的组织学变化有显著差异,P 值≤ 0.05。结论睡眠模式的变化表明,睡眠在维持肾皮质组织结构完整性方面具有重要作用,它对皮质血管局部血流动力学的影响最终会影响肾小球的结构和面积。睡眠不足是导致肾皮质变化的一个重要因素,而肾皮质变化会导致肾小球和肾小管损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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