View clinical trials related to Episodic Memory.
Filter by:The purpose of this study is to assess how emotional memories integrate and interfere with one another over time. We will be using a multi-session experimental paradigm consisting of two encoding sessions and one retrieval session. Participants will either complete these sessions online or in-person, with the latter collecting functional magnetic resonance imaging during the two encoding sessions.
The goal of this study is to understand the basic brain mechanisms supporting episodic memory in healthy young adults. Transcranial magnetic stimulation will be used to influence brain activity in regions thought to be important for episodic memory. Behavioral testing and MRI will be used to measure the effects of stimulation on memory and on changes in brain network interactions, allowing us to draw causal inferences regarding the role of specific brain regions in memory processes.
The purpose of this study is to determine whether hydrocortisone biases formation of alcohol-related memories to potentiate drinking.
Brain stimulation is a means to potentially remediate symptoms in a range of neurological and psychiatric diseases, however, precise targeting of stimulation is necessary to ensure efficacy. The proposed project will use recent advances in functional magnetic resonance imaging to delineate distributed brain networks within individuals, and use these network maps to guide selection of intracranial electrodes for stimulation during an episodic memory task. The resulting data will refine the current understanding of the neural systems involved in episodic memory, and provide a proof-of-principle for the use of individual-level network mapping to guide brain stimulation, which could have important implications for brain stimulation therapies for a range of mental health disorders.
Schemas describe mental structures storing recurrent and organized pattern of information. Schemas may have a strong influence on the process of storing and retrieving new information into memory. Previous approaches in the cognitive neuroscience of memory have entirely focused on the individual dimension of preexisting schemas. In the real world though, much of the researchers' experiences and knowledge are collective or shared. Such social-cultural frameworks stored in collective memory may also reshape and reconfigure the construction of individual memories. Attempting to ascertain the influence of collective schema on the neural substrates of individual memories using cutting-edge brain imaging methods represents the challenge that MULTIBRAIN2 seeks to tackle. To achieve this goal, the researchers will record brain activity during MRI scanning sessions in a group of 24 participants while they are performing an encoding followed by episodic memory retrieval tasks on pictures of the World War II Memorial of Caen. This study will seek to identify brain areas of the prefrontal cortex encoding the organization of knowledge in collective memory using multivariate analyses of brain activity patterns, and then to understand how such regions might modulate the recruitment of the hippocampus during episodic memory retrieval using analyses of effective connectivity. The organization of knowledge in collective memory is measured in parallel through 1) the analysis of French social memory of World War II using a corpus of thousand of television and radio shows from the National Institute of Audiovisual, and 2) an internet task measuring the organization of shared individual knowledge about World War II. Once collected, these data will help us to understand how collective schemas may shape the organization of individual memories.
Schemas describe mental structures storing recurrent and organized pattern of information. Schemas may have a strong influence on the process of storing and retrieving new information into memory. Previous approaches in the cognitive neuroscience of memory have entirely focused on the individual dimension of preexisting schemas. In the real world though, much of our experiences and knowledge are collective or shared. Such social-cultural frameworks stored in collective memory may also reshape and reconfigure the construction of individual memories. Attempting to ascertain the influence of collective schema on the neural substrates of individual memories using cutting-edge brain imaging methods represents the challenge that MULTIBRAIN seeks to tackle. To achieve this goal, we will record brain activity in a group of 24 participants while there are remembering pictures from a tour at the World War II Memorial of Caen. This study will seek to identify brain areas of the prefrontal cortex encoding the organization of knowledge in collective memory using multivariate analyses of brain patterns of activation, and then to understand how such regions might modulate the recruitment of the hippocampus during episodic memory retrieval using analyses of effective connectivity. The organization of knowledge in collective memory is measured in parallel through 1) the analysis of French social memory of World War II using a corpus of 100 000 television and radio shows from the National Institute of Audiovisual, and 2) an internet task measuring the organization of individual knowledge in a large group of individuals that will allow to separate shared from non-shared memories of the World War II. Once collected, these data will help us to understand how collective schemas may reconfigure the organization of individual memories.