Electrophysiology of Human Spatial Cognition

人类空间认知的电生理学

• 批准号: 7871037
• 负责人: Michael Jacob Kahana
• 金额: $ 10万
• 依托单位: UNIVERSITY OF PENNSYLVANIA
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-07-01 至 2010-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7871037
• 关键词: Accounting; Address; Animals; Behavior; Behavioral; Brain; Brain Injuries; Brain region; Cells; Clinical; Clinical Treatment; Code; Cognition; Cognitive; Complement; Cues; Data; Dependence; Development; Drug resistance; Electrodes; Electrophysiology (science); Employee Strikes; Ensure; Environment; Environment Design; Epilepsy; Episodic memory; Frequencies; Goals; Hippocampus (Brain); Human; Implanted Electrodes; Investigation; Knowledge; Learning; Link; Literature; Location; Maps; Medial; Medical center; Memory; Modification; Monitor; Navigation System; Neurons; Operative Surgical Procedures; Outcome; Participant; Patient Monitoring; Patients; Pear; Phase; Positioning Attribute; Procedures; Process; Progress Reports; Rattus; Recruitment Activity; Relative (related person); Research; Research Personnel; Research Project Grants; Research Support; Rodent; Role; Route; Scheme; Series; Source; Stimulus; Structure; Surveys; System; Techniques; Temporal Lobe; Testing; Time; Travel; Ursidae Family; Variant; Visual; Work; analog; base; cognitive function; design; entorhinal cortex; environmental change; experience; follow-up; high standard; information processing; memory process; memory retrieval; neuroimaging; neuromechanism; neuropsychological; neurosurgery; novel; psychologic; relating to nervous system; research study; response; standard of care; success; theories; virtual; virtual human; ward; way finding

DESCRIPTION (provided by applicant): The proposed multisite research project seeks to advance our understanding of the neural mechanisms underlying human spatial memory. Epileptic patients undergoing surgical/invasive monitoring as part of the clinical treatment of drug-resistant epilepsy will be recruited at four major medical centers. This procedure is performed with the highest standard of care and is potentially curative for the patients. By performing game-like spatial memory tasks while undergoing invasive electrode monitoring, patients may provide exquisite data on the brain mechanisms underlying spatial cognition. The proposed studies will examine the relation between brain waves (oscillations), cellular responses, and subjects' behavior during several variants of Yellow Cab, a virtual taxi-driver game. Our first two aims focus on the coding of spatial information. Aim 1 seeks to answer the question: How is the information necessary for (virtual) spatial navigation and spatial memory represented by neuronal activity in various brain regions? Aim 2 attempts to complement this knowledge by asking the question: How do these spatially-relevant neural systems code information? The third, fourth, and fifth aims regard the spatial memory system as a dynamic entity, and investigate the ways in which the responses of this system change over time, due to learning and to modifications of the environment. Aim 3 addresses the question of how spatial representations are acquired and transformed through experience. Aim 4 examines the contextual dependence of human spatial representations, both at the level of environments and at the level of routes within an environment. Finally, Aim 5 investigates the interaction between spatial memory and verbal episodic memory. The research supporting this aim will enable us to link our research on spatial memory to the larger literature on the role of the MTL system in declarative memory processes in humans and animals (Cohen & Eichenbaum, 1993). The proposed studies are of direct relevance to the treatment of epilepsy, in which mapping of cognitive functions to brain regions during surgical procedures is crucial for ensuring good postsurgical outcome.

描述（由申请人提供）：拟议的多站点研究项目旨在促进我们对人类空间记忆的神经机制的理解。作为耐药性癫痫临床治疗的一部分，接受手术/侵入性监测的癫痫患者将在四个主要医疗中心招募。该手术是在最高标准的护理下进行的，对患者有潜在的治愈性。通过在进行侵入性电极监测的同时执行类似游戏的空间记忆任务，患者可以提供关于空间认知的大脑机制的精确数据。拟议中的研究将检查脑电波（振荡），细胞反应和受试者在几个变体的黄色出租车，一个虚拟的出租车司机游戏的行为之间的关系。我们的前两个目标集中在空间信息的编码。目的1试图回答这个问题：（虚拟）空间导航和空间记忆所需的信息是如何由不同脑区的神经元活动表示的？目标2试图通过提出以下问题来补充这些知识：这些空间相关的神经系统如何编码信息？第三、第四和第五个目标将空间记忆系统视为一个动态的实体，并研究由于学习和环境的改变，该系统的反应随时间变化的方式。目标3解决了空间表征如何通过经验获得和转化的问题。目标4研究人类空间表征的上下文依赖性，既在环境层面上，也在环境中的路线层面上。最后，目的5探讨了空间记忆和言语情景记忆之间的相互作用。支持这一目标的研究将使我们能够将我们对空间记忆的研究与关于MTL系统在人类和动物陈述性记忆过程中的作用的更大文献联系起来（Cohen & Eichenbaum，1993）。拟议的研究与癫痫的治疗直接相关，其中在手术过程中将认知功能映射到大脑区域对于确保良好的术后结果至关重要。