Magnetic resonance imaging (MRI) to determine how cerebral cortex composition and structure underlie mental performance

磁共振成像 (MRI) 可确定大脑皮层的组成和结构如何影响心理表现

• 批准号: RGPIN-2020-06633
• 负责人: Bock, Nicholas
• 金额: $ 2.33万
• 依托单位: McMaster University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=741346
• 关键词: Magnetic; resonance; imaging; MRI; determine

The human cerebral cortex plays a key role in all mental activities including movement, memory, perception, cognition, and mood. Its structure and composition change over the life course and show considerable variation among individuals. Brain researchers therefore ask: How does the neurobiology of the cortex affect mental performance? That is, do individuals with certain cortical features perform better on certain mental tasks, and does their performance change as the cortex matures and ages? Here, noninvasive imaging methods are essential for tracking the properties of the cortex to extend findings from neuroscience (genes, cells, circuits) to findings from psychology (cognition, perception and behaviour). A major focus of my laboratory and of the proposed research program therefore is to develop comprehensive magnetic resonance imaging (MRI) for detailed measurements of the properties of the living cortex. MRI is ideal for characterizing the axons and dendrites responsible for transmitting information within the cortex and we will use it to measure how the cortex changes in healthy brains over the entire healthy human life course and whether cortical neurobiology is affected by an individual's sex. We will also study how MRI-visible features of the cortex link to the brain's performance on cognitive and perceptual tasks. My research program will develop novel MRI and image analysis techniques that will allow brain researchers to track changes in the cortical neurobiology in exquisite detail. The picture we form of how the healthy cortex matures and ages will serve as a crucial reference for identifying disruptions in the cortex in disease. Further, identifying which features of thinking and behaviour are supported by the structure and composition of the cortex is crucial to evaluating the impact of changing neurobiology on human behaviour, and devising interventions that will promote improvements in mental performance. We are an experienced group in MRI development based in a Psychology, Neuroscience, and Behaviour department. The breadth of material covered in this research proposal will be ideal to train a continuum of highly qualified personnel (HQP) from the undergraduate through the postdoctoral level in MR physics, computational neuroimaging, cognitive and behavioural psychology, and statistical analysis. The research we create, and the people we train, will continue to enhance Canada's already strong position in the field of neuroimaging and its application to basic science research into the workings of the human brain.

人类大脑皮层在包括运动、记忆、感知、认知和情绪在内的所有心理活动中起着关键作用。它的结构和组成在整个生命过程中不断变化，并在个体之间表现出相当大的差异。因此，大脑研究人员会问：大脑皮层的神经生物学是如何影响智力表现的？也就是说，具有某些大脑皮层特征的个体在某些心理任务中表现得更好吗？他们的表现是否会随着大脑皮层的成熟和衰老而改变？在这里，非侵入性成像方法对于跟踪皮层的特性至关重要，可以将神经科学（基因、细胞、电路）的发现扩展到心理学（认知、感知和行为）的发现。因此，我的实验室和拟议的研究计划的一个主要重点是开发全面的磁共振成像（MRI），以详细测量活皮层的特性。MRI是表征轴突和树突在皮层中负责传递信息的理想工具，我们将用它来测量在整个健康的人类生命过程中，健康大脑的皮层是如何变化的，以及皮质神经生物学是否受到个体性别的影响。我们还将研究大脑皮层的核磁共振可见特征如何与大脑在认知和感知任务中的表现联系起来。我的研究项目将开发新的核磁共振成像和图像分析技术，使大脑研究人员能够详细跟踪皮层神经生物学的变化。我们形成的健康皮层如何成熟和衰老的图像将作为识别疾病中皮层破坏的关键参考。此外，确定哪些思维和行为特征是由大脑皮层的结构和组成所支持的，这对于评估神经生物学变化对人类行为的影响，以及设计出能够促进智力表现改善的干预措施至关重要。我们是一个经验丰富的团队在核磁共振成像开发基于心理，神经科学和行为部门。本研究计划涵盖的材料广度将是培养从本科到博士后水平的高素质人才（HQP）的理想选择，包括磁共振物理、计算神经成像、认知和行为心理学以及统计分析。我们的研究成果，我们培养的人才，将继续加强加拿大在神经成像领域的强大地位，并将其应用于人类大脑运作的基础科学研究。