芦笋和植物乳杆菌抗老年痴呆作用的体内评估

Hanan abdellatief
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摘要

阿尔茨海默病(AD)是最常见的神经系统疾病,主要表现为脑神经元衰退。在早期阶段,阿尔茨海默病会引发短期记忆衰退,而在晚期阶段,则会导致长期记忆问题、情绪波动以及老年人退出社会。铝是助长神经细胞退化的一种高神经毒性物质。大脑皮层长期接触铝也会导致神经丝缺陷和代谢变化。本研究评估了正常组、氯化铝诱导组和天门冬(A. sprengeri)和乳酸菌处理组大脑皮层匀浆中的 Y 迷宫学习评估、乙酰胆碱酯酶(AchE)、氧化酶以及皮层组织病理学评估。结果表明,单独或混合使用天门冬萃取物和植物乳杆菌萃取物可显著提高诱导动物的智力。它还能提高氧化酶(如 SOD 和 GSH)的水平,降低 MDA 酶的水平,以及大脑皮层匀浆中必需的神经递质 AChE 酶的水平。组织学检查的改善进一步证实了这些发现。此外,混合疗法的效果与单独疗法的效果更为接近。这项研究为单独或共同使用 A.sprengeri 或 L.plantarum 作为草药疗法治疗氯化铝诱发的阿尔茨海默病大鼠并改善认知功能提供了证据。
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In vivo evaluation of anti- Alzheimer impact of Asparagus sprengeri and Lactobacillus plantarum
Alzheimer disease (AD), the most prevalent neurological disorder, is typified by cerebral neuron decline. In its earliest phases, AD triggers short-term memory fails, while in its later phases, it leads to long-term memory problems, fluctuations in mood, and withdrawal from society in elderly people. One highly neurotoxic material that aids in the deterioration of nerve cells is aluminum. Neurofilamentous defects and metabolic changes can also be brought on by long-term exposure to aluminum in the cerebral cortex. The current study evaluated Y maze learning assessments, acetylcholinesterase (AchE), oxidative enzymes, in homogenates of the cerebral cortex as well as histopathological assessment of cortex in normal, induced group by AlCl 3 and treated by Asparagus sprengeri(A.sprengeri)and Lactobacillus plantarum(L.plantarum)extracts separately or in mixture.The use of either A.sprengerior L.plantarumextracts was shown to substantially enhance the mental abilities of the induced animals. It also increased levels of oxidative enzymes, such as SOD and GSH, and decreased MDA enzymes, as well as essential neurotransmitter AChE enzyme in homogenates of the cerebral cortex. These findings were further supported by improvements in histological examination. Additionally, the effects of mixed therapies are more comparable to those of solo treatment. This study offered an evidence in using A.sprengeri or L.plantarumseparately or together as herbal remedies to treat rats with aluminum chloride-induced Alzheimer's disease and improve cognitive function.
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