结论:功能性核磁成像方法可用于咀嚼功能和脑功能关系的研究。
Conclusion: Functional magnetic resonance imaging can be applied to the research areas relevant to the relationship between mastication and brain function with reliability.
科学家们向23个受试者展示了一系列单词并同时进行功能性核磁成像技术(fMRI)扫描。
The scientists presented 23 research subjects with a list of words while they underwent an fMRI scan.
材料与方法:应用功能性核磁成像方法,对10名健康志愿者分别在左右侧咀嚼运动时脑功能活动的情况进行检测。
Materials and methods: The neuronal activities related to unilateral mastication were detected with functional magnetic resonance imaging in 10healthy volunteers.
现在卡里昂与其同事正使用影像学技术即功能性核磁成像(功能性MRI)来对儿童大脑在完成情绪性和认知性任务时是否出现不同和怎样出现不同进行可视化研究。
Carrion and his colleagues are now using an imaging technique known as functional MRI to visualize whether and how the children's brains differ when performing emotional and cognitive tasks.
中风患者因为疾病原因已经忘记了原有运动技能。研究者们使用功能性磁核共振成像的方法,监测了他们重新学习该技能时的大脑活动。
They have used an approach called functional MRI to monitor activity in the brain as stroke patients re-learn motor skills that were lost as a result of their illness.
中风患者因为疾病原因已经忘记了原有运动技能。研究者们使用功能性磁核共振成像的方法,监测了他们重新学习该技能时的大脑活动。
They have used an approach called functional MRI to monitor activity in the brain as stroke patients re-learn motor skills that were lost as a result of their illness.
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