hippocampal formation 中文意思是什麼
hippocampal formation
解釋
海馬結構- hippocampal : 大腦海馬的
- formation : n. 1. 構成,形成;設立;編制。2. 組織,構造;形態;形成物,構造物;【軍事】編隊,隊形;兵團。3. 【地質學;地理學】層;組; 【生物學】社區;(植物)群系。adj. -al
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Objective to study amygdaloid body, hippocampal formation and lateral ventricle in thin cross section of brain to provide the anatomy knowledge for clinic
摘要目的觀察杏仁體、側腦室和海馬結構在腦的薄層橫斷面上的表現及變化,為影像學提供解剖學依據。 -
Study on long term protective effect of diazepam interferential treatment on hippocampal formation in immature rats with status epilepticus
地西泮干預幼鼠癲癇持續狀態對海馬結構的遠期保護作用 -
An experimental study on morphological changes of hippocampal formation and mossy fiber sprouting in immature epileptic rats induced by lithium - pilocarpine
寬葉纈草治療局灶性腦缺血的實驗研究 -
Morphological changes of hippocampal formation and mossy fiber sprouting in immature epileptic rats induced by lithium - pilocarpine : an experimental study
戊四氮點燃過程中大鼠海馬苔蘚纖維發芽變化的研究 -
A long term injuring effects on hippocampal formation after status epilepticus in early immature rats
幼鼠早期癲癇持續狀態對海馬結構損傷的遠期影響 -
Effect of guilingji on expression of neurofilament protein in hippocampal formation in rat
龜齡集對大鼠海馬結構內神經絲蛋白表達的影響 -
Nogo - a was found in hippocampal neurons at different stages and is located in cytoplasm, membrane and neurites. nogo - a was detected at proximal part of all neurites before axon formation
結果提示nogo a在不同培養時間海馬神經元中均有表達,主要分佈在胞漿、胞膜和突起上。 -
Effects of long - term replacement therapy of compound nylestriol tablet or low - dose 17 beta - estradiol on the expression of nerve growth factor in ovx rat hippocampal formation
雌二醇對去卵巢大鼠海馬結構內神經生長因子表達的影響 -
Effects of long - term replacement therapy of compound nylestriol tablet or low - dose 17 beta - estradiol on expression of brain - derived neurotrophic factor in ovx rat hippocampal formation
雌二醇對去卵巢大鼠海馬結構內腦源性神經營養因子表達的影響 -
" the remarkable similarities between the exercise - induced cerebral blood volume changes in the hippocampal formation of mice and humans suggest that the effect is mediated by similar mechanisms, " they wrote
「鍛煉在人類及小鼠的海馬體中引起的大腦血流量改變非常相似,揭示該作用是由相似的機理進行調節的, 」他們寫道。
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