Please see schedule overview for poster set-up and break-down times.
| Talk # | First Name | Last Name | Institution | Poster Title |
|---|---|---|---|---|
| 103.6.1 | Tatiana | Viena | Florida Atlantic University | Discharge Properties of Ventral Midline Thalamic Cells Across the Sleep-Wake Cycle in the Rat |
| 103.6.2 | Sarah | Kark | Boston College | Valence-specific repetition effects reflect nonconscious memory for emotional stimuli during a 24-hour recognition memory task |
| 103.6.3 | Dhruva | Raman | University of Cambridge | Unstable representations of stable behaviours |
| 103.6.4 | Branden | Kolarik | University of California, Irvine | Investigating the effects of real-world exploration as environmental enrichment in older adults |
| 103.6.5 | Lizeth | Pedraza Correa | Federal University of Rio Grande do Sul, Brazil | Fluoxetine prevents fear generalization and maintains hippocampal dependency: implications for extinction enhancement |
| 103.6.6 | Nathen | Murawski | Boston University | Manipulating Maladaptive Memories: optogenetic strategies to mitigate stress- and addiction-related behaviors |
| 103.6.7 | Ian | Ballard | Stanford University | Hippocampal Pattern Separation Supports Reinforcement Learning |
| 103.6.8 | Joaquín | Alfei | KU LEUVEN - CENTRE FOR THE PSYCHOLOGY OF LEARNING AND EXPERIMENTAL PSYCHOPATHOLOGY | Fear Memory Generalization and Recovery from Post-Retrieval Amnesia |
| 103.6.9 | Kamran | Diba | University of Michigan | Temporal structure of hippocampal neurons during "offline" bursts evaluated by hidden Markov models. |
| 103.6.10 | G. Aleph | Prieto | Institute for Memory Impairments and Neurological Disorders, University of California-Irvine | PDE2 inhibition rescues LTP in Alzheimer diseased synapses |
| 103.6.11 | Jiefeng | Jiang | Stanford University | Generalization of cognitive control demand via overlapping associative memories |
| 103.6.12 | Sabrina | Jones | American University | GLP-1 agonist improves learned inhibition on a hippocampal dependent memory task |
| 103.6.13 | Gyuri | Lur | University of California Irvine | Stress induced degradation of long range inputs to the posterior parietal cortex |
| 103.6.14 | Benjamin | Kubit | University of California, Davis | Mechanisms of music-associated memory formation: The relationship between procedural memory, imagery, and event recollection. |
| 103.6.15 | Krista | Wahlstrom | University of Iowa | Optical stimulation of the pathway from the basolateral amygdala to the medial entorhinal cortex in rats, enhances retention of spatial memory. |
| 103.6.16 | John | Wittig, Jr | National Institutes of Health / NINDS | Memory-Specific Attention Mechanisms |
| 103.6.17 | Zhongzheng | Fu | California Institute Of Technology | Single-neuron correlates of the error-related negativity in human medial frontal cortex |
| 103.6.18 | Sara | Aton | University of Michigan | Hippocampal network oscillations rescue memory consolidation in the absence of sleep |
| 103.6.19 | Vanessa | van Ast | University of Amsterdam | Is a smaller hippocampal dentate gyrus predictive of conditioned fear-generalization across contexts? | |
| 103.6.21 | Emily | Merfeld | Boston University | Chronically reactivating positive and negative memories to modulate hedonic and social behaviors |
| 103.6.22 | Emily | Mech | University of California, Riverside | The Consequences of Bilingualism for New Category Learning |
| 103.6.23 | Stefania | Forner | University of California Irvine | How extracellular and intracellular Ab affects Alzheimer's disease synaptic loss. |
| 103.6.24 | Miguel | Diaz-Acevedo | Rutgers University - Newark | A Role for Striatal TH-Interneurons in the Reinforcement of Goal-Directed Behavior |
| 103.6.25 | Zhuang | Song | University of Texas at Dallas | Multimodal imaging of the Hippocampal Network in Normal and Pathological Aging |
| 103.6.26 | Cintia | Velázquez Delgado | UNAM | Effect of a novel environment in the catecholaminergic system in cognitive alterations and in the accumulation of beta-amyloid in models of Alzheimer. |
| 103.6.27 | Theresa | Nguyen | Stanford University | Effects of Mossy Cell Manipulation in Learning and Memory |
| 103.6.28 | Navid | Ghaffari | University of California, Irvine | Novel Methodological Assessment of Highly Superior Autobiographical Memory |
| 103.6.29 | Lou | Rizzolo | COMETE UMR-S 1075 INSERM, University of Caen | Chronic exposure to music of middle-age Wistar rats alleviates cognitive decline at advanced age. |
| 103.6.30 | Danaé | Rémon | CNRS UMR5549 | Learning strategies and acquisition of long term memories of word-object pairs in young children |
| 103.6.31 | Stella | Sakhon | The University of Arizona | Equivalent Fast Mapping and Explicit Encoding Word Retention in Typical and Atypical Development |
| 103.6.32 | Sara | Iacozza | Max Planck Institute for Psycholinguistics | Evidence for in-group biases in source memory for newly learned words |
| 103.6.33 | Alexandra | Trelle | Stanford University | Cortical representations during memory encoding and retrieval predict successful associative memory retrieval in healthy older adults |
| 103.6.34 | Silvia | Maggi | University of Manchester | Prefrontal cortex ensembles learn to encode working memory and choice |
| 103.6.35 | Elena | Rotondo | Rutgers University | Early effects on subcortical processing of sound with learned extinction of auditory associative memory in a rodent model |
| 103.6.36 | David | Tingley | New York University, Langone Medical Center | Reading the hippocampal spatial code |
| 103.6.37 | André | Sousa | Scripps Research Institute | Optogenetic ensemble reactivation induces systems memory consolidation |
| 103.6.38 | Petar | Raykov | Sussex University | Shared contextual knowledge strengthens inter-subject synchrony and pattern similarity |
| 103.6.39 | Olivier | de Vries | University of Amsterdam | Altering episodic memories by stimulating arousal during reconsolidation. |
| 103.6.40 | Randolph | Helfrich | University of California, Berkeley | Coupled slow oscillations and sleep spindles orchestrate PFC-MTL interactions during NREM sleep| |
| 105.6.1 | Simon | Kwon | University of Cambridge | A Meta-analysis of Event-Related Potential Correlates of Recollection and Familiarity |
| 105.6.2 | Xiaoxiao | Lin | University of California Irvine, Irvine | Epigenetic regulation of neuronal ensemble activity to enhance spatial learning and memory |
| 105.6.3 | Sophie | Peterson | California State University San Bernardino | The effects of serotonin 6 receptor blockade on repetitive behaviors in the BTBR mouse model of Autism Spectrum Disorder. |
| 105.6.4 | Andrew | Garcia | University of Delaware | Distinct Oscillatory Interactions within the Hippocampal-Thalamo-Prefrontal Circuit During Spatial Working Memory |
| 105.6.5 | Lexus | Hernandez | University of California, Irvine | Optimizing Sleep-Related Memory Processes using Closed-Loop Auditory Stimulation |
| 105.6.6 | Edward | Korzus | University of California, Riverside | Circuit dynamics during contextual fear discrimination learning |
| 105.6.7 | Jessica | Noche | University of California, Irvine | Performance symmetry in object versus spatial memory tasks is linked to cognitive status and entorhinal cortical thinning in aging |
| 105.6.8 | Dingrong | Guo | School of Psychological and Cognitive Sciences, Peking University, Beijing, China | Different roles of anterior and posterior hippocampus in retrieving schema-related associations |
| 105.6.9 | Martin | Riemer | German Center for Neurodegenerative Diseases (DZNE), Magdeburg, Germany | The accumulation of space, time and numerosity in a navigational context: an fMRI study |
| 105.6.10 | Aida | Jaldi | Howard University College of Medicine | The Impact of Metformin Treatment on Voluntary Running Activity and Alzheimer's Disease-Related Neuropathology in a Transgenic Mouse Model |
| 105.6.11 | Eitan | Schechtman-Drayman | Northwestern University | Forget about it: accelerating directed forgetting using targeted memory reactivation |
| 105.6.12 | Jenkin | Mok | York University | Is it time? Examining the effects of episodic imagining on reward discounting |
| 105.6.13 | Oana | Gurau | University of Oxford | Investigating Spatial Navigation in Amnesic Patients: a Comparison Between Immersive and Computer-based Virtual Reality | |
| 105.6.14 | Gabriel | Elias | University of California Irvine | Representations of acoustic context in rodent primary auditory cortex |
| 105.6.15 | Lucien | Thompson | University of Texas at Dallas | Aging, Drugs, Diet, Sex, Fear, Space and Memory: Convergence on post-burst AHPs in CA1 |
| 105.6.16 | Sierra | Schleufer | University of Washington | Hippocampal lesions affect free-viewing behavior in monkeys |
| 105.6.17 | Marie-Christin | Fellner | Ruhr University Bochumr | Tracking representational similarity and oscillatory correlates of selective rehearsal and active forgetting in EEG| |
| 105.6.18 | Alexandra | Stolyarova | University of California, Los Angeles | Learning from uncertain reinforcement with basolateral amygdala and orbitofrontal cortex: validation using DREADDs |
| 105.6.19 | Christopher | de Solis | The University of Texas at Dallas | Overexpression of GluN2B(E1479Q) within the basal and lateral amygdala enhances the modification of a strong fear memory via reconsolidation updating |
| 105.6.20 | Cuihong | Li | Peking University | Neural mechanisms of distributed and massed learning during associative recognition - role of the hippocampus |
| 105.6.21 | Geoffrey | Blondelle | Université de Picardie Jules Verne, Amiens, France | Rehabilitation of prospective memory disorders after a severe acquired brain injury with Google Calendar and goal management training: a single case |
| 105.6.22 | Zaneta | Navratilova | University of California, Irvine | Directionality in distal CA1 is driven by sensory cues, while proximal CA1 is influenced by self-motion differences |
| 105.6.23 | Mohammad | Shehata | California Institute of Technology | Engram-specific synaptic plasticity within engram assemblies governs the storage of fear memory identity |
| 105.6.24 | Tomoaki | Nakazono | University of California, Irvine | Impaired in vivo gamma oscillations in the medial entorhinal cortex of knock-in Alzheimer model |
| 105.6.25 | James | Elsey | University of Amsterdam | Fear today, gone tomorrow? Investigating the impact of a reconsolidation-based pharmacological intervention for arachnophobia |
| 105.6.26 | Elizabeth | Haddad | University of California, Irvine | Fragmented early life care imposed on a rodent model reveals aberrant structural connectivity in emotional and reward based circuitry |
| 105.6.27 | Rafi | Haque | Emory University | Eye-movement based memory during a visual manipulation task predicts memory decline |
| 105.6.28 | Ryan | Harvey | University of New Mexico | Altered Spatial Coding of Hippocampal Place Cells Following Moderate Prenatal Alcohol Exposure| |
| 105.6.29 | Adam | Ramsaran | The Hospital for Sick Children | Maturation of hippocampal perineuronal nets underlies the ontogeny of memory specificity |
| 105.6.30 | Anna | Khazenzon | Stanford | Peri-encoding cortical oscillations reflect dissociable roles of attentional control in memory formation |
| 105.6.31 | Zahra M. | Aghajan | University of California, Los Angeles | Theta Oscillations in the Human Medial Temporal Lobe during Real World Ambulatory Movement |
| 105.6.32 | Ricardo | Azevedo | University of California, Irvine | Cell specific visualization and interrogation of nascent RNA in whole brain |
| 105.6.33 | Rimenez | Souza | University of Texas at Dallas | OPTIMIZATION OF VAGUS NERVE STIMULATION EFFECTS ON FEAR EXTINCTION IN RATS EXPOSED TO SEVERE TRAUMA |
| 105.6.34 | Nina | Lichtenberg | University of California, Los Angeles | The function of basolateral amygdala projections in reward expectation-guided behavior |
| 105.6.35 | Genevieve | Albouy | KU Leuven | Schema and Motor Memory Consolidation |
| 105.6.36 | Beate E. | Muehlroth | Max Planck Institute for Human Development, Berlin | Youth-like Precision of Slow Oscillation-Spindle Coupling promotes Memory Consolidation across the Adult Lifespan |
| 105.6.37 | Sascha | Duken | University of Amsterdam | Can misleading information change a memory through reconsolidation? |
| 105.6.38 | Jonathan | Curot | Centre de Recherche Cerveau et Cognition, CNRS, UMR 5549, Toulouse | Memory scrutinized through electrical brain stimulation (EBS): A review of 80 years of experiential phenomena. |
| 105.6.39 | Casper | Kerren | University of Birmingham | An optimal oscillatory phase for pattern reactivation during memory retrieval |
| 105.6.40 | Sara | Pishdadian | York University | Mnemonic Discrimination of known places and concepts is affected in healthy aging and hippocampal amnesia |
| 203.6.1 | Rebecca | Stevenson | University of California, Irvine | Gamma and theta activity in the human medial temporal and prefrontal cortices predict performance on a spatial learning task |
| 203.6.2 | Jan | Kamiński | Cedar Sinai Medcial Center | Persistently active neurons in human medial temporal lobe support working memory |
| 203.6.3 | Goffredina | Spano | University College London | Is scene construction during sleep a prerequisite for hippocampal-dependent memory consolidation? |
| 203.6.4 | Natalie | Schroyens | KU Leuven, Leuven, Belgium | Pharmacological induction of post-reactivation amnesia for contextual fear memory in rats |
| 203.6.5 | Xin | Fu | Tulane University | Noradrenergic activation of local GABAergic interneurons in the basolateral amygdala |
| 203.6.6 | Thomas | Rogerson | Stanford | Long-term imaging of ensemble neural calcium dynamics in the perirhinal cortex of freely behaving mice learning context-stimulus associations |
| 203.6.7 | Lauren | Whitehurst | University of California, Riverside | Off-label psychostimulant use may come at a cost to sleep-dependent memory |
| 203.6.8 | Morgan | Botdorf | University of Maryland, College Park | Relations between working memory and cortical thinning in anterior cingulate cortex and dorsolateral prefrontal cortex in early childhood |
| 203.6.9 | Munjal | Acharya | University of California Irvine | An astrocytic regulation of cognitive function in the irradiated brain |
| 203.6.10 | Ann-Kathrin | Zenses | KU Leuven, Leuven, Belgium | An association splitting intervention to reduce intrusive thoughts |
| 203.6.11 | Jie | Zheng | University of California, Irvine | Oscillatory multiplexing in the amygdala-hippocampal circuit facilitates mnemonic discrimination of emotional stimuli |
| 203.6.12 | David | Clewett | New York University | Brain Mechanisms by Which Emotional Learning Selectively and Retroactively Enhances Memory for Related Information |
| 203.6.13 | Shang Lin (Tommy) | Lee | University of Connecticut | Firing characteristics of dorsal and ventral place cells in response to spatial novelty |
| 203.6.14 | Siddharth | Ramanan | The University of Sydney, NSW, Australia | Evidence for distinct memory profiles across atypical Alzheimer's disease syndromes |
| 203.6.15 | Anna-Lena | Schlenner | University of California San Diego | CA3 network pattern separation can occur in the absence of neurogenesis in the dentate gyrus. |
| 203.6.16 | Avi | Chanales | New York University | Online integration of overlapping events mitigates subsequent interference |
| 203.6.17 | David | Omer | Weizmann institute,Israel | Social place cells in the bat hippocampus |
| 203.6.18 | Nathaniel | Noyes | Scripps Research Institute | Ras is a memory suppressor affecting multiple types of consolidated memory |
| 203.6.19 | Benjamin | Yetton | University of California, Irvine | No fear transfer across temporally-linked memories in humans |
| 203.6.20 | Eve | Higby | University of California Riverside | Learning object labels in a second language facilitates lexical access in the native language |
| 203.6.21 | Emma | Biggs | KU Leuven, Leuven, Belgium | The Neural Correlates of the Acquisition of Fear of Painful Touch |
| 203.6.22 | Sean | Collins | University of Illinois at Urbana-Champaign | Neocortical SHANK1 plays a critical role in facilitating forebrain dependent associative learning: a whisker-trace-eyeblink conditioning study |
| 203.6.23 | Gergely | Szabo | Stanford University | Extended interneuronal network of the dentate gyrus |
| 203.6.24 | Georgios P.D. | Argyropoulos | University of Oxford, Oxford, UK | Cerebellar structural and functional abnormalities in hippocampal atrophy due to limbic encephalitis |
| 203.6.25 | Shao-Fang | Wang | Stanford University | Representations of local information in human medial temporal lobe during memory-guided spatial navigation |
| 203.6.26 | Ksenia | Toropova | National Research Center "Kurchatov Institute", Moscow, Russia | Cellular resting state networks in the mouse brain and their relation to previous experience: a large-scale c-Fos mapping study |
| 203.6.27 | Lindsey | Noble | University of Texas at Dallas | Effects of vagus nerve stimulation (VNS) on generalization of conditioned fear extinction | |
| 203.6.28 | Emma | Delhaye | Liege University | Perirhinal cortex atrophy in Alzheimer's disease is associated with impaired perceptual integration and altered memory for unitized associations |
| 203.6.29 | Melissa | Hebscher | University of Toronto | Continuous theta burst stimulation (cTBS) to the precuneus alters theta and gamma oscillations during autobiographical memory (AM) retrieval |
| 203.6.30 | Leonore | Bovy | Donders Institute for Brain, Cognition and Behaviour | Impaired procedural memory consolidation relates to sleep spindle impairments in major depression |
| 203.6.31 | Stephanie | Theves | Donders Institute, Radboud University, Nijmegen | From neighborhoods to maps: Hippocampal distance coding in concept space |
| 203.6.32 | Ernie | Hwaun | University of Texas at Austin | Changes in firing rates of CA3 place cells across sleep following a novel experience |
| 203.6.33 | Benjamin | Basile | National Institute of Mental Health | Amygdala lesions do not disrupt familiarity memory in macaque monkeys |
| 203.6.34 | Mildred | Salgado | Universidad Nacional Autonoma de Mexico | Differential role of catecholamines during contextual memory updating |
| 203.6.35 | Daniel | Barry | University College London | Oscillatory dynamics supporting the mental construction of scenes |
| 203.6.36 | Jorge | Quillfeldt | Federal University of Rio Grande do Sul (UFRGS), Porto Alegre, RS - Brazil | Reconsolidation-induced rescue of a remote fear memory blocked by an early cortical inhibition: different pathways for systems consolidation |
| 203.6.37 | Juan | Linde Domingo | University of Birmingham | Tracking the reconstruction of episodic memories in behaviour and EEG time courses |
| 203.6.38 | Nicole | Montijn | Utrecht University | Forgetting the future: Fading affect bias and content features of emotional future simulation in highly anxious individuals |
| 203.6.39 | Isabel | Salas | VIB KU Leuven | High fat diet treatment impairs hippocampal long term potentiation without alterations in the core neuropathological features of Alzheimer disease |
| 203.6.40 | Nadja | Schroder | Pontifical Catholic University of Rio Grande do Sul | IRON POTENTIATES OVARECTOMY-INDUCED MEMORY IMPAIRMENTS: EFFECTS OF G PROTEIN COUPLED ESTROGEN RECEPTOR (GPER) STIMULATION |
| 303.6.1 | Robert | Reinhart | Boston University | 6-Hz alternating current of segregated frontal cortical areas improves learning in humans |
| 303.6.2 | Charles | Mactutus | University of South Carolina | Accuracy of Spatial Navigation: The Role of Starting Location |
| 303.6.3 | Carolyn | Harley | Memorial University of Newfoundland | In vivo optogenetic LC activation and modulation of the perforant path evoked potential in dentate gyrus. |
| 303.6.4 | Evan | Hart | University of California, Los Angeles | Persistent effect of withdrawal from intravenous methamphetamine self-administration on effort-based choice and activation of anterior cingulate |
| 303.6.5 | Laura | Berkowitz | University of New Mexico | Characterization of Head Direction Cells in the TgF344-AD Rat Model of Alzheimer's Disease |
| 303.6.6 | Marta | Sabariego Collett | University of California, San Diego | MEDIAL ENTORHINAL CORTEX INPUTS ARE NOT REQUIRED FOR CA3 CELLS TO RETAIN TRAJECTORY INFORMATION IN A SPATIAL MEMORY TASK |
| 303.6.7 | Wouter | Cox | University of Amsterdam | The effects of a beta-adrenergic receptor antagonist on reconsolidation and extinction in humans |
| 303.6.8 | Rosalind | Nguyen | University of Maryland, College Park | Examining the Neural Correlates of N-back Performance at Different Levels of N. |
| 303.6.9 | Sarina | Zehra | Era’s Lucknow Medical College | Enhancing Learning and Memory Through Innovative Dietary Planning |
| 303.6.10 | Heidi | Meyer | Weill Cornell Medicine | Differential response patterns of ventral hippocampal neurons under conditions of fear and safety |
| 303.6.11 | Jessica | Robin | Rotman Research Institute, Baycrest Health Sciences | The role of scenes in associative memory and inference |
| 303.6.12 | Alicia Nunez | Vorobiova | Centre for Cognition and Decision making, National Research University Higher School of Economics, Russian Federation | Role of the medial prefrontal cortex in congruency-based memorization: an rTMS study |
| 303.6.13 | Andrew | Howe | University of California Los Angeles | Sharp-Wave Ripples in a Spatial, Value-Based Decision-Making Task |
| 303.6.14 | Gabriel | Besson | GIGA - Cyclotron Research Center, University of Liège | Does the perceptual representation hierarchy differentially contribute to familiarity? |
| 303.6.15 | Paola | Colucci | Sapienza University of Rome, Italy | Amphetamine and the "bath salt" 3,4-methylenedioxypyrovalerone (MDPV) differentially affect the accuracy of memory for emotional experiences in rats |
| 303.6.16 | Kenneth | Amaya | Dartmouth College | Role of dorsolateral striatal cholinergic interneurons in behavioral response to changes in action-outcome contingencies |
| 303.6.17 | Mary | Flaim | University of California, Los Angeles | Modified Raven's Progressive Matrices for Homing Pigeons, Columba liva |
| 303.6.18 | Sarah Lindsay | Peters | McGill University | Comparing and contrasting the neural mechanisms of autobiographical memory and problem solving |
| 303.6.19 | Steven | Harrod | University of South Carolina | Escalation of Cocaine Self-Administration on a PR Schedule of Reinforcement followed by Concurrent Choice of Sucrose and Cocaine using F344 rats |
| 303.6.20 | Dane | Clemenson | University of California, Irvine | Exploration of a video game environment leads to improvements in hippocampus-associated behaviors |
| 303.6.21 | Monika | Shpokayte | Boston University | Activating Ventral Hippocampus to Amygdala terminals processing fear or reward |
| 303.6.22 | Marie | Lods | INSERM U1215 | The role of adult hippocampal neurogenesis in spatial memory stabilization |
| 303.6.23 | Linda | Palmer | University of California, Irvine | Prior complexity shapes exploratory episodes and patterns of hippocampal encoding |
| 303.6.24 | Iva | Brunec | University of TorontoÊ | Hippocampal long axis dynamics change across the lifespanÊ |
| 303.6.25 | Manuela | Costa | Laboratory For Clinical Neuroscience, Madrid, Spain | High gamma oscillations in the human amygdala during successful emotional memory encoding and retrieval| |
| 303.6.26 | Xenia | Grande | Institute of Cognitive Neurology and Dementia Research, Otto-von-Guericke University Magdeburg | Connectivity of Hippocampal Subfields at Holistic Recollection: Functional Evidence at 7 Tesla |
| 303.6.27 | Aneta | Brzezicka | Cedars Sinai Medical Center | Contrasting load-related theta changes in DLPFC and hippocampus during information maintenance in working memory |
| 303.6.28 | Sara | Scheveneels | KU Leuven | The effects of gradual versus random extinction training on fear responding |
| 303.6.29 | Bradley | Buchsbaum | Rotman Research Institute | Attentional Regulation of Working Memory Representations in Aging |
| 303.6.30 | Leslie | Rollins | Christopher Newport University | Eye-Movement Based Memory Effects during the Forced-Choice Mnemonic Similarity Task| |
| 303.6.31 | Ryan | Troha | University of Connecticut | Observational learning of a foraging scenario in rats |
| 303.6.32 | Brian | Gereke | University of Texas at Austin | Experience-Dependent Trends in CA1 Theta and Slow Gamma Rhythms in Freely Behaving Mice |
| 303.6.33 | Valeriya | Belyaeva | National Research University Higher School of Economics (NRU HSE), Moscow, Russia | Influence of BDNF Val66Met Polymorphism on Spatial and Temporal Working Memory |
| 303.6.34 | Alexandra | Mably | University of Texas at Austin | CA2 place cells remap in response to social olfactory stimuli |
| 303.6.35 | Nadine | Diersch | German Center for Neurodegenerative Diseases (DZNE), Magdeburg, Germany | Changes in connectivity profiles as a mechanism for age-related decline in navigational learning? |
| 303.6.36 | Naomi | de Haas | Donders Institute, Radboud University, Nijmegen, The Netherlands | Neural representation of value space |
| 303.6.37 | Georgios P.D. | Argyropoulos | Nuffield Department of Clinical Neurosciences (NDCN) | Connectivity, not volumes: aberrant resting-state functional connectivity explains amnesia following limbic encephalitis |
| 303.6.38 | Scott | Cairney | University of York | Time to Forget: Unbinding Arousal from Emotional Memories |
| 303.6.39 | Abby Basya | Finkelstein | Boston University | Social Reinstatement of Contextual Fear Memory |
| 303.6.40 | Susan A | Farr | St. Louis University School of Medicine/VA Medical Center St. Louis | Blocking GSK-3β Increase After a Traumatic Brain Injury Prevents Memory Impairment |
| 305.6.1 | Piere-Yves | Jonin | Université de Toulouse, CNRS CERCO, UMR 5549, France | Retrieval practice based on recognition memory: testing the retrieval effort hypothesis |
| 305.6.2 | Kate | Nussenbaum | New York University | Developing the ability to remember useful information |
| 305.6.3 | Emmanuel | Barbeau | Centre de recherche Cerveau et Cognition, Toulouse, France | Extremely long-term memory and familiarity after 12 years |
| 305.6.4 | Aaron | Mattfeld | Florida International University | Memories for decisions: Increased correlation between the hippocampus and medial prefrontal cortex support conditional associative behavior |
| 305.6.5 | Andrew | Sanders | University of California, Los Angeles | Indexing working memory capacity in infancy |
| 305.6.6 | Marshall | Dalton | University College London, London, UK | Resting state functional connectivity of human hippocampal subregions |
| 305.6.7 | Hillary | Raab | New York University | Pavlovian and instrumental contributions to motivated behaviors across development |
| 305.6.8 | Alireza | salami | Karolinska Institute | Dopamine D2 is associated with neural responses during working memory in a load-dependent manner |
| 305.6.9 | Jon | Rueckemann | University of Washington | Network Oscillations in the Monkey Hippocampus |
| 305.6.10 | Megan | Curran | University of California, Irvine | Neuron Restrictive Silencing Factor mediates long-term learning and memory deficits provoked by developmental prolonged febrile seizures |
| 305.6.11 | Paola | Malerba | University of California, Irvine | Spatio-temporal dynamics of sleep EEG rhythms and memory performance |
| 305.6.12 | Lycia | de Voogd | Donders Institute | The role of spatial context representations in medial temporal lobe regions in fear generalization: A virtual reality approach |
| 305.6.13 | Paul | Loprinzi | University of Mississippi | Exercise and Episodic Memory Interference |
| 305.6.14 | Tarek | Amer | University of Toronto / Rotman Research Institute | Neural Correlates of Memory for Arbitrary and Meaningful Associations in Younger and Older Adults |
| 305.6.15 | Conor | Cox | University of California Irvine | Recurrent networks of hippocampus CA3 are capable of encoding time |
| 305.6.16 | Kara | Wendel | University of California, Irvine | White Matter Vasculature and Microstructure Abnormalities Predict Learning/Memory Impairments following Pediatric Mild Traumatic Brain Injury |
| 305.6.17 | Rianne | Campbell | University of California, Irvine | Cell Type Specific Action of Nr4a2 in Response to Cocaine |
| 305.6.18 | Catherine | Cornwell | Syracuse University | Environmental Enrichment Prevents Autistic-like Behaviors in Maternally Separated Mice |
| 305.6.19 | Gabriel | Berdugo-Vega | Center for Regenerative Therapies Dresden | An Increase in Adult Neurogenesis Restores Efficient Spatial Learning Strategies Throughout Life |
| 305.6.20 | Anne-Lise | Saive | University of Montreal, Canada | Theta power modulations during odor-visuospatial encoding specifically predict accuracy of subsequent item and context retrieval. |
| 305.6.21 | Marijn | Kroes | Radboud University Nijmegen Medical Center | Reconsolidation cuts both ways: Reactivation before extinction strengthens episodic memory but fails to disrupt generalized threat responses. |
| 305.6.22 | Ipshita | Zutshi | University of California, San Diego | Speed cells but not head direction cells are integrated with the grid cell network in medial entorhinal cortex superficial layers |
| 305.6.23 | Isabella | Wagner | University of Vienna | Thalamo-cortical interactions foster durable memory consolidation during post-encoding rest |
| 305.6.24 | Qijing | Yu | Wayne State University | Hippocampal DG/CA3 volume is linked to associative memory in young children |
| 305.6.25 | Katherine | Conant | Georgetown University | Disruption of perineuronal nets increases the frequency of sharp wave ripple events |
| 305.6.26 | Carla | Dalmaz | Universidade Federal do Rio Grande do Sul | Early experiences change aversive memory labilization/reconsolidation: late engagement of the dorsal hippocampus during memory reactivation? |
| 305.6.27 | Sara | Pudas | Umeå University, Sweden | Generational differences for school performance and educational attainment as early life predictors of age-related memory decline |
| 305.6.28 | Antoine | Besnard | Harvard Medical School | Distinct subpopulations of somatostatin interneurons in dorsolateral septum relay fear and anxiety signals to control subcortical circuits |
| 305.6.29 | Garrett | Blair | University of California, Los Angeles | Long-term population recordings of hippocampal place cells via calcium imaging in the rat |
| 305.6.30 | Anastasia | Chalkia | KU Leuven | Reconsolidation blockade vs memory integration:Does state dependency account for the amnestic effect of propranolol on reactivated memories in humans? |
| 305.6.31 | Quinton | Skilling | University of Michigan | Dynamical analysis of neural systems outline the importance of near-critical dynamics and functional network stability for memory consolidation |
| 305.6.32 | Rosanna | Olsen | Rotman Research Institute, Baycrest | A harmonized protocol for in vivo human hippocampal subfield segmentation: initial results of the 3 tesla protocol |
| 305.6.33 | Amy | Frithsen | University of California, Irvine | Response bias, recollection, and familiarity in individuals with Highly Superior Autobiographical Memory (HSAM) |
| 305.6.34 | Jacob | Berry | Scripps Research Institute Florida | Dopamine neurons mediate learning and forgetting through bidirectional modulation of output neuron synapses |
| 305.6.35 | Caesar | Hernandez | University of Florida | Optogenetic inactivation of basolateral amygdala in young rats recapitulates aged rats' ability to delay gratification in an intertemporal choice task |
| 305.6.36 | Clive | Rosenthal | University of Oxford | V1 and lateral occipital cortex contributions to the encoding, post-learning consolidation, and recognition of words masked from visual awareness |
| 305.6.37 | Bombi | Lee | Kyung Hee University | The polymethoxylated flavone, tangeretin improves cognitive memory in rats experiencing a single episode of prolonged post-traumatic stress |
| 305.6.38 | Zhisen | Urgolites | University of California, San Diego | Preferential viewing of old scenes reflects conscious memory and is impaired after medial temporal lobe damage |
| 305.6.39 | Jordana | Wynn | Rotman Research Institute/ University of Toronto | Prior knowledge effects on visual search in younger and older adults |
| 305.6.40 | Logan | Harriger | University of California, Irvine | Network topology of slow wave propagation during NREM sleep: evidence from human intracranial EEG |
| 405.6.1 | Mailys | Faraut | Cedars-Sinai Medical Center | Single-units correlates of Top-Down Control of Memory in Humans |
| 405.6.2 | Afif | Aqrabawi | University of Toronto | Topographic Hippocampal Projections to the Anterior Olfactory Nucleus Mediate Episodic Odour Memory Retrieval |
| 405.6.3 | Shirley | Leanos | University of California, Riverside | Broad learning is related to verbal memory in older adulthood |
| 405.6.4 | Katharine | Simon | University of Arizona | Losing memories during sleep after Targeted Memory Reactivation |
| 405.6.5 | Hannah | Kim | Stanford University | Effects of optogenetic seizure control on spatial learning and memory |
| 405.6.6 | Maria | Morena | University of Calgary | Overexpression of the endocannabinoid anandamide degrading enzyme in the basolateral amygdala paradoxically decreases anxiety and fear memory |
| 405.6.7 | Mohsen | Naji | University of California, San Diego | Perceptual learning benefits from early rapid-eye movement sleep| |
| 405.6.8 | Dustin | Pluta | University of California, Irvine | Estimating Heritability of EEG Connectivity During a Working Memory Task |
| 405.6.9 | Andrew | Maurer | University of Florida | Perforant path fiber loss is related to mnemonic similarity performance in rats |
| 405.6.10 | Kisha | Kalra | Middlebury College | Metabolic Consequences of Synaptic Plasticity |
| 405.6.11 | Yitzhak | Norman | Weizmann Institute of Science | A neuronal mechanism for setting top-down boundaries during free recall |
| 405.6.12 | Lechuan | Hu | University of California, Irvine | Modeling high dimensional multi-channel brain signal data and its application to rat's LFP signal |
| 405.6.13 | Ivan | Skelin | University of Lethbridge/University of California Irvine | Sharp wave/ripples influence connectivity patterns in cortical networks |
| 405.6.14 | Jared | Stokes | University of California, Davis | Human hippocampal representations of novel, irregular environments | |
| 405.6.15 | Matthew | Mahavongtrakul | University of California, Irvine | Sex-specific effects of Levetiracetam and prevention of cognitive impairment in mice lacking synaptic zinc |
| 405.6.16 | Stephanie | Koebele | Arizona State University | Maze complexity and task learning order affects memory performance in estrogen-treated rats| |
| 405.6.17 | Saana | Korkki | University of Cambridge | Episodic memory precision in healthy ageing |
| 405.6.18 | Zaw Ali | Khan | Era University | Enhancing learning and memory through nutritional and lifestyle interventions. |
| 405.6.19 | Deborah | Talmi | University of Manchestser | A rational analysis of motivated memory |
| 405.6.20 | Yosif | Zaki | Boston University | Inhibiting ensembles in the hippocampus and amygdala to suppress reinstatement-induced fear. |
| 405.6.21 | Anne | Bierbrauer | Ruhr-University Bochum, Germany | Neural mechanisms underlying the impact of stress on memory encoding |
| 405.6.22 | Ian | Clark | University College London, | Is associative memory truly impaired in patients with bilateral hippocampal damage? |
| 405.6.23 | Konstantin | Anokhin | National Research Center "Kurchatov Institute", Moscow, Russia | Pavlovian conditioning of contextual engram: properties and neuronal substrates |
| 405.6.24 | Maria | Montchal | University of California, Irvine | Perirhinal and anterolateral entorhinal cortex involved in memory for time? |
| 405.6.25 | Mathieu | Hainselin | Université de Picardie Jules Verne | Improvisation theatre helps reduce anxiety...and memory! |
| 405.6.26 | Yoni | Browning | University of Washington, Seattle | Monkey hippocampal neurons track ongoing experiences |
| 405.6.27 | Viktor | Varga | New York University | Contribution of the medial septum to the formation of place fields. |
| 405.6.28 | Deborah | Roby | Saint Louis University | Up regulation of Reverb activity improves cognition and mitochondrial gene expression in Alzheimer's mouse model. |
| 405.6.29 | Melanie | Schwefel | Freie Universität Berlin, Germany | Effects of physical activity on cognitive functions in depression - an fMRI study |
| 405.6.30 | Alison | Comrie | University of Arizona | Sparser representation of experience with age in in rat lateral entorhinal cortex |
| 405.6.31 | Cornelia | McCormick | University College London | The temporal dynamics of autobiographical memory recall |
| 405.6.32 | Michael | Craig | Heriot-Watt University, Edinburgh, UK | Consolidating the details: awake quiescence enhances memory quality |
| 405.6.33 | Joshua | Goldenberg | Middlebury College | Local Field Potential (LFP) Determinants of Behavioral Variability in a Dual-Solution T-Maze |
| 405.6.34 | Christina | Lebonville | University of North Carolina, Chapel Hill | Role of the hippocampus in context-heroin conditioned immune suppression. |
| 405.6.35 | Michael | Rupp | University of California, Riverside | Subsequent Recollection Network Activity is Associated with Successful Subsequent Mnemonic Discrimination |
| 405.6.36 | Oded | Bein | New York University | Mnemonic prediction errors bias CA1 connectivity towards entorhinal cortex and away from CA3 |
| 405.6.37 | Layla | Dang | St. Olaf College | Age-Related Effect of Dopamine Gene on Feedback-based Sequence learning |
| 405.6.38 | Yanfen | Chen | Donders Institute for Brain, Cognition and Behaviour | Basolateral Amygdala Interactions with the Insular Cortex in Regulating Object Recognition Memory |
| 405.6.39 | Andrea | Medina | Instituto de Neurobiología, Universidad Nacional Autónoma de México | LOW AND HIGH INTENSITIES OF TRAINING INDUCE DIFFERENT SPINE DENSITY AND MORPHOLOGY IN NEOCORTEX DURING MEMORY CONSOLIDATION |
| 405.6.40 | Frederic | Roux | University of Birmingham, School of Psychology & Queen Elizabeth Hospital NHS Trust | Single unit and LFP activity in the human hippocampus during episodic memory |
| 503.6.1 | Alessandra | Cadete Martini | University of California, Irvine | The impact of endocytic protein Tom1 on Alzheimer's disease. |
| 503.6.2 | Paola | Colucci | Sapienza University of Rome, Italy | Effects of different post-encoding stress intensities on short-term recognition memory in rats: The endocannabinoid buffering |
| 503.6.3 | Emily | Cowan | New York University | Reorganization of memory representations and functional connectivity with sleep |
| 503.6.4 | Mana | Ehlers | University of British Columbia | Adaptation and noradrenergic genetic variations influence emotional categorization |
| 503.6.5 | Bart | Hartogsveldt | Maastricht University | Acute stress decreases later performance on instrumental learning, but its effects on habitual learning are not set in stone |
| 503.6.6 | Gordon | Feld | University College London | Electrical synapses enable sleep-dependent declarative memory consolidation |
| 503.6.7 | Samantha | Audrain | University of Toronto | Individual differences in resting-state memory network connectivity predicts memory decline after temporal lobe resection |
| 503.6.8 | Benjamin | Griffiths | University of Birmingham | Hippocampal theta/gamma synchronisation and neocortical alpha/beta desynchronisation are co-dependent during episodic memory formation and retrieval |
| 503.6.9 | Nicholas | Diamond | University of Toronto and Rotman Research Institute, Baycrest Health Sciences | Fine-grained spatiotemporal context memory for a real-world museum exhibit two years later |
| 503.6.10 | Liqi | Tong | University of California, Irvine | Ceramide signal transduction pathways mediate IL-1β-induced impairment of synaptic plasticity |
| 503.6.11 | Laura | Shelley | University of California, San Diego | Spatial fragmentation: Posterior parietal cortex and hippocampal mapping of subspaces |
| 503.6.12 | Jacob | Olson | Massachusetts Institute of Technology | Subiculum Axis Neurons Exhibit Well-Defined Phase/Space Firing Fields |
| 503.6.13 | Rachel | Clark | University of Iowa | Cardiorespiratory fitness positively predicts episodic learning rate in older adults |
| 503.6.14 | Adam | Crego | Dartmouth College | Identifying a causal role for vigor and habit within the dorsolateral striatum |
| 503.6.15 | Jessica | Rosa | University of São Paulo-USP | Acute stress impairs the extinction of conditioned fear memory: Participation of glucocorticoid receptors in the prefrontal cortexÊ |
| 503.6.16 | Svenja | Treu | Centre for Biomedical Technology, UPM | Spatial memory improvement by deep-brain stimulation of the nucleus accumbens |
| 503.6.17 | Manuel | Pulido-Azpiroz | Penn State University | When language learning is also about native language regulation: Training native language inhibition improves learning of L2 word combinations |
| 503.6.18 | Anna | Gerlicher | Johannes Gutenberg University, Medical Center Mainz | Dopaminergic enhancement of extinction memory consolidation in a human fMRI study |
| 503.6.19 | Brittney | Cox | University California Irvine | Hippocampal subregions responsible for the different components of episodic memory |
| 503.6.20 | Arash | Sadri | Tehran University of Medical Sciences | Enhancing the memory-enhancing effect of memantine by applying a novel administration regime in scopolamine-induced memory impairment model in mice. |
| 503.6.21 | Seham | Alaiyed | Georgetown University Medical Center | Noradrenergic signaling enhances matrix metalloproteinases release; relevance to antidepressant efficacy |
| 503.6.22 | Vishnu | Sreekumar | National Institutes of Health (NIH) | Neural context drift drives temporal effects at multiple scales in associative memory performance |
| 503.6.23 | Rafael | Roesler | Federal University of Rio Grande do Sul | Estrogen receptor alpha regulates the consolidation of memory for inhibitory avoidance |
| 503.6.24 | Salman | Qasim | Columbia University | Single-unit activity modulated by both space and memory in the human medial temporal lobe| |
| 503.6.25 | Stephanie | Grella | Boston University | Reactivating hippocampus-mediated memories to disrupt the reconsolidation of fear. |
| 503.6.26 | Sanjay | Narasiwodeyar | Florida International University | The Role of Hippocampal Field CA1 in Controlling Memory Specificity: A Neurocomputational Model |
| 503.6.27 | Honi | Sanders | Massachusetts Institute of Technology | Hippocampal Remapping as Learned Clustering of Experience |
| 503.6.28 | Alesia | Prakapenka | Arizona State University | Hormone therapy and cognition in a model of surgical menopause: estrogen and progestogen components can enhance individually but impair when combined |
| 503.6.29 | Pin-Chun | Chen | University of California Irvine | A Daytime Nap Facilitates Working Memory Training in Young and Older Adults.| |
| 503.6.30 | Clive | Rosenthal | University of Oxford | Network topology and functional connectivity in CA3-mediated autobiographical episodic amnesia |
| 503.6.31 | Bombi | Lee | Kyung Hee University | Melatonin ameliorates cognitive deficits and alterations in hippocampal CREB and proinflammatory in a rat model of post-traumatic stress disorder |
| 503.6.32 | Marlieke | van Kesteren | VU University Amsterdam | Integrating memories: How congruency and reactivation aid memory integration |
| 503.6.33 | Andrey | Tsvetkov | The University of Texas McGovern Medical School at Houston | The G-quadruplex DNA stabilizing drug pyridonstatin downregulates transcription of Brca1 in neurons |
| 503.6.35 | Jessie L. | Yaros | University of California, Irvine | Mnemonic Discrimination for Faces: A Potential Mechanism for the Other-Race Effect |
| 503.6.36 | Amanda | McQuade | University of California, Irvine | Using iPSC-derived microglia to examine the role of MS4A genes in Alzheimer's disease |
| 503.6.37 | Cheng | Wang | Johns Hopkins University | Influence of objects on egocentric bearing tuning in lateral entorhinal cortex |
| 503.6.38 | Xiaojing | Chen | Johns Hopkins University | Egocentric bearing selectivity in lateral entorhinal cortex |
| 503.6.39 | Cory | Inman | Emory University | Tuning direct electrical amygdala stimulation parameters for declarative memory enhancement in humans |
| 503.6.40 | James | Antony | Princeton University | Evidence for a "reactivation blink" between human sleep spindles |