neuroprotection strategies
神经保护策略
promoting neuroprotection
促进神经保护
neuroprotection mechanisms
神经保护机制
enhancing neuroprotection
增强神经保护
neuroprotection research
神经保护研究
neuroprotection therapy
神经保护疗法
neuroprotection effects
神经保护作用
future neuroprotection
未来神经保护
neuroprotection role
临床神经保护
clinical neuroprotection
researchers are investigating novel therapies for neuroprotection after stroke.
研究人员正在调查中风后新的神经保护疗法。
early neuroprotection strategies can significantly improve patient outcomes.
及早的神经保护策略可以显著改善患者的预后。
the goal of neuroprotection is to minimize brain damage following injury.
神经保护的目标是最大限度地减少脑损伤,继发于损伤之后。
neuroprotection mechanisms often involve reducing oxidative stress and inflammation.
神经保护机制通常涉及减少氧化应激和炎症。
pharmacological neuroprotection is a promising area of ongoing research.
药物神经保护是一个有前景的持续研究领域。
genetic factors can influence an individual's capacity for neuroprotection.
遗传因素会影响个体神经保护的能力。
neuroprotection trials are crucial for validating therapeutic interventions.
神经保护试验对于验证治疗干预措施至关重要。
the role of autophagy in neuroprotection is increasingly recognized.
自噬在神经保护中的作用越来越受到重视。
combining neuroprotection with rehabilitation may enhance recovery after brain injury.
将神经保护与康复相结合可能会增强脑损伤后的恢复。
neuroprotection strategies are being explored for neurodegenerative diseases.
正在探索神经保护策略以用于神经退行性疾病。
understanding the pathways involved in neuroprotection is vital for drug development.
理解参与神经保护的途径对于药物开发至关重要。
natural compounds are being studied for their potential neuroprotective effects.
天然化合物正在被研究其潜在的神经保护作用。
neuroprotection strategies
神经保护策略
promoting neuroprotection
促进神经保护
neuroprotection mechanisms
神经保护机制
enhancing neuroprotection
增强神经保护
neuroprotection research
神经保护研究
neuroprotection therapy
神经保护疗法
neuroprotection effects
神经保护作用
future neuroprotection
未来神经保护
neuroprotection role
临床神经保护
clinical neuroprotection
researchers are investigating novel therapies for neuroprotection after stroke.
研究人员正在调查中风后新的神经保护疗法。
early neuroprotection strategies can significantly improve patient outcomes.
及早的神经保护策略可以显著改善患者的预后。
the goal of neuroprotection is to minimize brain damage following injury.
神经保护的目标是最大限度地减少脑损伤,继发于损伤之后。
neuroprotection mechanisms often involve reducing oxidative stress and inflammation.
神经保护机制通常涉及减少氧化应激和炎症。
pharmacological neuroprotection is a promising area of ongoing research.
药物神经保护是一个有前景的持续研究领域。
genetic factors can influence an individual's capacity for neuroprotection.
遗传因素会影响个体神经保护的能力。
neuroprotection trials are crucial for validating therapeutic interventions.
神经保护试验对于验证治疗干预措施至关重要。
the role of autophagy in neuroprotection is increasingly recognized.
自噬在神经保护中的作用越来越受到重视。
combining neuroprotection with rehabilitation may enhance recovery after brain injury.
将神经保护与康复相结合可能会增强脑损伤后的恢复。
neuroprotection strategies are being explored for neurodegenerative diseases.
正在探索神经保护策略以用于神经退行性疾病。
understanding the pathways involved in neuroprotection is vital for drug development.
理解参与神经保护的途径对于药物开发至关重要。
natural compounds are being studied for their potential neuroprotective effects.
天然化合物正在被研究其潜在的神经保护作用。
探索常用高频词汇