| 202.1.1 | Martin | Dresler | Donders Institute for Brain, Cognition and Behaviour | Mnemonic training effects on task-free brain function |
| 202.1.2 | Boris Nikolai | Konrad | Donders Institute for Brain, Cognition and Behaviour | Mnemonic training and superior memory skills |
| 202.1.3 | Isabella | Wagner | University of Vienna | Efficient memory formation with the method of loci |
| 202.1.4 | Edmund | Rolls | Oxford Centre for Computational Neuroscience | Hippocampal spatial view cells and attractor networks for episodic memory |
| 202.1.5 | Marco | Peters | Dart Neuroscience, LLC | Augmentation of hippocampal memory through genetic ablation of PDE1B and PDE2A. |
| 202.2.1 | Xiaoke | Chen | Stanford University | Orchestrating Drug-Associated Memories in Thalamic Circuits |
| 202.2.2 | Angela | Lukowski | University of California Irvine | Social Skills Interventions May Improve Encoding and Long-Term Recall Memory by Children with Down Syndrome |
| 202.2.3 | Marc | Coutanche | University of Pittsburgh | Incorporating New Knowledge into Existing Perceptual and Conceptual Dimensions through Interacting Regions of the Human Brain |
| 202.2.4 | Veronique | Bohbot | McGill University | Modulating theta rhythm, growth and shrinkage in the human hippocampus |
| 202.2.5 | Gui | Xue | Beijing Normal University | Retrieval practice facilitates episodic memory updating via reconsolidation mechanism |
| 202.3.1 | Itamar | Lerner | Rutgers University | Baseline Levels of Rapid-Eye-Movement Sleep May Protect Against Excessive Fear Learning |
| 202.3.2 | Almira | Vazdarjanova | Augusta University | Susceptibility vs. Trauma Sequelae Factors in Post Traumatic Stress Disorder (PTSD) |
| 202.3.3 | Michal | Zochowski | University of Michigan | Characterization of network-wide, dynamical mechanisms of learning during contextual fear conditioning. |
| 202.3.4 | Tom | Smeets | Maastricht University | The Effects of Reconsolidation Stress on the Degrading Effects of Eye Movements on Negative Autobiographical Memories |
| 202.3.5 | Dominik | Bach | University of Zurich | Matrix metalloproteinase role in human threat learning |
| 202.4.1 | Serena | Dudek | National Institute of Environmental Health Sciences, NIH | Insights into hippocampal area CA2 function from studies of synaptic plasticity and critical periods |
| 202.4.2 | David | Glanzman | University of California, Los Angeles | Transfer by RNA of the engram for long-term sensitization in Aplysia |
| 202.4.3 | Amar | Sahay | MGH and Harvard Medical School | A molecular brake of inhibition onto CA3 governs engram maintenance and remote memory generalization |
| 202.4.4 | Damian | Wheeler | Dart NeuroScience | Npas4 as a Marker of Recent Neuronal Activity |
| 202.4.5 | Steve | Mahler | University of California, Irvine | DREADDs without Dread: Refining Chemogenetic Tools for Manipulating Neurons and Circuits |
| 202.5.1 | Nikolai | Malykhin | University of Alberta | The functional role of hippocampal subfields and anteroposterior subregions: a high- resolution fMRI study of episodic memory. |
| 202.5.2 | Christine | Smith | Veterans Affairs San Diego Healthcare System; University of California, San Diego | Both memory-impaired patients and controls direct eye movements towards a changed region of a scene when they are consciously aware of the change |
| 202.5.3 | Sara | Aton | University of Michigan | Coherent NREM oscillations play an essential, instructive role in visual system plasticity and visual learning. |
| 202.5.4 | Mary Pat | McAndrews | University of Toronto | Schema effects on hippocampal engagement in associative recognition: fMRI and MEG evidence |
| 202.5.5 | Joshua | Jacobs | Columbia University | Lateralized hippocampal oscillations underlie distinct aspects of human spatial memory and navigation |
| 402.1.1 | Stephen | Cowen | University of Arizona | Age-associated changes in waking hippocampal sharp-wave ripples |
| 402.1.2 | Katja | Umla-Runge | Cardiff University | Stable differences in posteromedial cortex deactivation during scene encoding in young adult carriers and non-carriers of the APOE-ε4 allele. |
| 402.1.3 | John | Guzowski | University of California, Irvine | Neuroinflammatory state modulates neuronal gene expression and hippocampal pattern separation processes underlying context discrimination memory retrieval |
| 402.1.4 | Matthew | Grilli | University of Arizona | Evidence of Compromised Episodic Autobiographical Memory in Clinically Normal Older Adults at Increased Genetic Risk of Late-Onset Alzheimer's Disease |
| 402.1.5 | Nicolai | Franzmeier | Ludwig Maximilian University of Munich, Institute for Stroke and Dementia Research | Neural mechanisms of cognitive reserve in Alzheimer's disease |
| 402.2.1 | Khena | Swallow | Cornell University | Memory For Spatiotemporal Context is Enhanced by Temporal Attention |
| 402.2.2 | Jessica | Andrews-Hanna | University of Arizona | Time is of the Essence: The Costs and Benefits of Temporally-Oriented Thinking in Daily Life |
| 402.2.3 | Darren | Rhodes | Nottingham Trent University | Bayesian Time Perception |
| 402.2.4 | Norbert | Fortin | University of California, Irvine | Nonspatial sequence coding in hippocampal neurons |
| 402.2.5 | David | Smith | Cornell University | Ensemble Coding of Long-Term Spatial and Contextual Memory in the Retrosplenial Cortex. |
| 402.3.1 | Deborah | Talmi | University of Manchester | A retrieved context model of the emotional modulation of memory |
| 402.3.2 | Linda | Levine | University of California, Irvine | Prospection and Retrospection about Emotion: Tomorrow's Vividness Trumps Yesterday’s Accuracy |
| 402.3.3 | Pascale | Gisquet-Verrier | CNRS, Institut de neuroscience Paris-Saclay (NeuroPSI) | Emotional remodeling: a new therapeutic approach for pathological memories. |
| 402.3.4 | Victoria | Templer | Providence College | Does social housing protect against cognitive decline due to aging? |
| 402.3.5 | Roberto A. | Prado-Alcalá | Institute of Neurobiology, National University of Mexico | TTX infusion into medial prefrontal cortex: Effects on memory consolidation of moderate and intense inhibitory avoidance training |
| 402.4.1 | Ronald | Davis | Scripps Research Institute Florida | Dopamine signaling for active forgetting |
| 402.4.2 | Geoffrey | Schoenbaum | National Institute on Drug Abuse - IRP | Dopamine neurons respond to errors in the prediction of sensory features of expected rewards |
| 402.4.3 | Gina | Quirarte | Universidad Nacional Autonoma de Mexico | Glucocorticoid administration into the dorsolateral but not dorsomedial striatum accelerates the shift from spatial toward procedural memory |
| 402.4.4 | David | Margolis | Rutgers University | Distinct Roles of Corticostriatal Input from Primary Sensory and Motor Cortex in Task Performance and Learning in Mice |
| 402.4.5 | Jesse | Rissman | University of California, Los Angeles | The effects of mental reinstatement of virtual reality learning contexts on foreign language retrieval |
| 402.5.1 | Amal | Alachkar | University of California Irvine | Prenatal one-carbon metabolism dysregulation programs memory deficits |
| 402.5.2 | Jason | Snyder | University of British Columbia | Patterns of Neuron Addition and Loss in the Dentate Gyrus |
| 402.5.3 | Natalie | Tronson | University of Michigan | Sickness, sex, and hippocampus: Long lasting modulation of memory after immune challenge |
| 402.5.4 | Yuri | Dabaghian | Rice University | Robust spatial memory maps are encoded in networks with transient connections. |
| 402.5.5 | Aaron | Wilber | Florida State University | Impaired spatial orientation and memory reactivation in mouse models of Alzheimer's disease |
