Then the learning and memory abilities were tested after Morris water maze training.
然后进行水迷宫行为测试评价其学习记忆能力。
The test of Morris water-maze showed that the extract elevated the learning and memory abilities of mice.
白首乌提取物组小鼠较模型组小鼠的学习记忆能力得到显著改善。
Conclusion NGF-Like polysaccharides of Campanumoea javanica Bl can improve the learning and memory abilities of mice.
结论 具有NGF样活性的土党参多糖具有改善小鼠学习记忆能力的作用。
These results shed light on a better understanding of the mechanism of taurine in increasing learning and memory abilities.
这可能是牛磺酸增强动物学习记忆的原因之一。
CONCLUSION: Oxygen enrichment can improve the learning and memory abilities, and strengthen the motor ability of hypoxic rats.
结论:富氧能改善缺氧大鼠的学习记忆功能,提高低氧环境运动作功能力。
Objective To study the damage induced by chronic stress on the spatial learning and memory abilities of rats and pertinent mechanism.
目的探讨慢性应激对大鼠空间学习记忆能力的损害及其机制。
CONCLUSION: Cervical vertebra destabilization promotes apoptosis of brain cells, and decreases the learning and memory abilities in senile mice.
结论:颈椎稳定性的改变可促进老年小鼠脑细胞凋亡,导致其记忆功能明显减退。
Then the learning and memory abilities were tested after Morris water maze and step-though training. The activity of PDE4 in hippocampus was evaluated by HPLC.
通过水迷宫和避暗实验测试其学习记忆水平,且应用高效液相法(HPLC)检测大鼠海马组织PDE4活性。
CONCLUSION: Mechanism of combination of acupuncture and medication on improvement of learning and memory abilities is probably related to central cholinergic system.
结论:针药结合改善学习记忆能力的机制可能与中枢胆碱能有关。
AIM: To analyze the influence of high-altitude hypoxia on the expression of cerebral cortex, hippocampus neurogranin in rats in relation to learning and memory abilities.
目的:分析高原低氧环境对大鼠大脑皮质、海马神经颗粒素表达的影响以及与学习记忆的关系。
A short period of psychological stress in infancy can lead to impaired learning and memory and a decline in cognitive abilities in middle-age, according to research conducted in rats.
婴儿期的短时的心理压力可能导致中年期的学习和记忆能力受损,思维能力下降。
Conclusion The number of cholinergic neurons and abilities of learning and memory of vascular dementia rats are decreased.
结论:血管性痴呆大鼠海马胆碱能神经元减少,空间记忆能力下降。
The IIC has the abilities of self-learning, store-memory, and evolution. It can produce control antibody automatically during the process of eliminating control error.
该IIC具有自学习、存储记忆和进化能力,能够在消除控制偏差的过程中自动生成控制抗体。
The IIC has the abilities of self-learning, store-memory, and evolution. It can produce control antibody automatically during the process of eliminating control error.
该IIC具有自学习、存储记忆和进化能力,能够在消除控制偏差的过程中自动生成控制抗体。
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