neurogliacyte function
神經膠質細胞功能
neurogliacytes proliferate
神經膠質細胞增殖
damaged neurogliacytes
受損的神經膠質細胞
neurogliacyte regeneration
神經膠質細胞再生
neurogliacytes support
神經膠質細胞支持
neurogliacyte research
神經膠質細胞研究
neurogliacyte communication
神經膠質細胞溝通
neurogliacyte activation
神經膠質細胞活化
neurogliacytes interact
神經膠質細胞交互作用
neurogliacytes play a crucial role in supporting neuronal health throughout the central nervous system.
神經膠質細胞在整個中樞神經系統中對支持神經元健康起著至關重要的作用。
recent studies have revealed that neurogliacyte activity significantly influences synaptic transmission efficiency.
最近的研究顯示,神經膠質細胞的活動會顯著影響突觸傳導效率。
scientists discovered a new type of neurogliacyte that may be responsible for regulating brain inflammation responses.
科學家發現了一種新型的神經膠質細胞,可能負責調節大腦的發炎反應。
the development of neurogliacytes during embryonic stages determines their functional properties in adult brains.
神經膠質細胞在胚胎階段的發展決定了它們在成人腦中的功能特性。
impaired neurogliacyte function has been linked to various neurodegenerative disorders including alzheimer's disease.
神經膠質細胞功能受損已被與包括阿茲海默氏病在內的各種神經退化性疾病聯繫起來。
researchers found that neurogliacyte interactions with neurons are more complex than previously understood.
研究人員發現,神經膠質細胞與神經元的交互作用比之前所理解的更複雜。
the morphology of neurogliacytes varies considerably depending on their specific location within the nervous system.
神經膠質細胞的形態根據其在神經系統中的特定位置而有顯著差異。
understanding neurogliacyte differentiation processes could lead to new treatments for brain injuries.
了解神經膠質細胞的分化過程可能導致腦損傷的新治療方法。
the population of neurogliacytes in the human brain exceeds the number of neurons by approximately ten to one.
人腦中神經膠質細胞的數量約為神經元數量的十倍。
neurogliacyte proliferation typically increases following traumatic brain injury as part of the healing response.
在腦部受創後,神經膠質細胞的增殖通常會作為修復反應的一部分而增加。
advanced imaging techniques now allow scientists to observe neurogliacyte behavior in real-time.
先進的影像技術現在讓科學家能夠即時觀察神經膠質細胞的行為。
the role of neurogliacytes in maintaining the blood-brain barrier is essential for protecting brain tissue.
神經膠質細胞在維持血腦屏障中的作用對於保護腦組織至關重要。
genetic mutations affecting neurogliacyte development can result in severe neurological conditions.
影響神經膠質細胞發育的基因突變可能導致嚴重的神經系統疾病。
neurogliacyte function
神經膠質細胞功能
neurogliacytes proliferate
神經膠質細胞增殖
damaged neurogliacytes
受損的神經膠質細胞
neurogliacyte regeneration
神經膠質細胞再生
neurogliacytes support
神經膠質細胞支持
neurogliacyte research
神經膠質細胞研究
neurogliacyte communication
神經膠質細胞溝通
neurogliacyte activation
神經膠質細胞活化
neurogliacytes interact
神經膠質細胞交互作用
neurogliacytes play a crucial role in supporting neuronal health throughout the central nervous system.
神經膠質細胞在整個中樞神經系統中對支持神經元健康起著至關重要的作用。
recent studies have revealed that neurogliacyte activity significantly influences synaptic transmission efficiency.
最近的研究顯示,神經膠質細胞的活動會顯著影響突觸傳導效率。
scientists discovered a new type of neurogliacyte that may be responsible for regulating brain inflammation responses.
科學家發現了一種新型的神經膠質細胞,可能負責調節大腦的發炎反應。
the development of neurogliacytes during embryonic stages determines their functional properties in adult brains.
神經膠質細胞在胚胎階段的發展決定了它們在成人腦中的功能特性。
impaired neurogliacyte function has been linked to various neurodegenerative disorders including alzheimer's disease.
神經膠質細胞功能受損已被與包括阿茲海默氏病在內的各種神經退化性疾病聯繫起來。
researchers found that neurogliacyte interactions with neurons are more complex than previously understood.
研究人員發現,神經膠質細胞與神經元的交互作用比之前所理解的更複雜。
the morphology of neurogliacytes varies considerably depending on their specific location within the nervous system.
神經膠質細胞的形態根據其在神經系統中的特定位置而有顯著差異。
understanding neurogliacyte differentiation processes could lead to new treatments for brain injuries.
了解神經膠質細胞的分化過程可能導致腦損傷的新治療方法。
the population of neurogliacytes in the human brain exceeds the number of neurons by approximately ten to one.
人腦中神經膠質細胞的數量約為神經元數量的十倍。
neurogliacyte proliferation typically increases following traumatic brain injury as part of the healing response.
在腦部受創後,神經膠質細胞的增殖通常會作為修復反應的一部分而增加。
advanced imaging techniques now allow scientists to observe neurogliacyte behavior in real-time.
先進的影像技術現在讓科學家能夠即時觀察神經膠質細胞的行為。
the role of neurogliacytes in maintaining the blood-brain barrier is essential for protecting brain tissue.
神經膠質細胞在維持血腦屏障中的作用對於保護腦組織至關重要。
genetic mutations affecting neurogliacyte development can result in severe neurological conditions.
影響神經膠質細胞發育的基因突變可能導致嚴重的神經系統疾病。
探索常見搜尋詞彙