Themes and Topics

The SfN Program Committee assigns sessions according to their theme and topic, as selected by the submitters.

A searchable list of the Neuroscience 2026 themes and topics list is available via PDF. After opening the document, please use key command CTRL + F and enter your search term. The results will be highlighted in the right scroll bar.

Note that there have been significant changes to the list, including the addition of a new theme, so submitters should pay careful attention when making theme and topic selections.

Theme A hidden sub-title if needed	Development
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• A.01. Neurogenesis and Gliogenesis
• A.01.a. Proliferation, migration, and cell death
• A.01.b. Mechanisms of cell fate
• A.01.c. Neuronal differentiation
• A.01.d. Glial development
• A.01.e. Postnatal neurogenesis
• A.02. Stem Cells and Reprogramming
• A.02.a. Pluripotent stem cells – Disease models
• A.02.b. Pluripotent stem cells – Differentiation and reprogramming
• A.02.c. Neural stem cells
• A.03. Axon and Dendrite Development
• A.03.a. Dendrite and axon growth
• A.04. Transplantation and Regeneration
• A.04.a. Regeneration
• A.05. Synaptogenesis and Activity-Dependent Development
• A.05.a. Synapse and circuit formation, maturation, and remodelling
• A.06. Developmental Disorders
• A.06.a. Autism – Behavioral analysis
• A.06.b. Autism – Genetic models
• A.06.c. Autism – Synaptic and cellular mechanisms
• A.06.d. Autism – Physiology and systems
• A.06.e. Rett syndrome
• A.06.f. Fragile X syndrome
• A.06.g. Down syndrome
• A.06.h. Angelman and other developmental disorders
• A.06.i. ADHD, SLI, dyslexia, and other specific disorders of neurobehavior
• A.06.j. Animal models of autism
• A.06.k. Animal models of developmental disorders other than autism
• A.07. Development of Neural Systems
• A.07.a. Motor systems
• A.07.b. Sensory systems
• A.07.c. Development – Other systems
• A.08. Adolescent Development
• A.08.a. Adolescent development – Animal models
• A.08.b. Adolescent development – Human imaging
• A.08.c. Adolescent development – Mechanisms
• A.09. Development and Evolution
• A.09.a. Comparative anatomy
• A.09.b. Comparative cellular and molecular mechanisms
• A.10. Schizophrenia
• A.10.a. Schizophrenia genetics, pathophysiology, and mechanisms
• A.10.b. Schizophrenia therapeutics – Animal and human studies

Theme B hidden sub-title if needed	Neural Excitability, Synapses, and Glia
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• B.01. Transmitters, Transporters, and Other Signaling Molecules
• B.01.a. Neurotransmitters
• B.01.b. Neurotransmitter transport and degradation
• B.01.c. Neuropeptides and other signaling molecules
• B.02. Transmitter Receptors and Ligand-Gated Ion Channels
• B.02.a. Ligand-gated receptors and ion channels
• B.02.b. G-protein coupled and other receptors
• B.03. Ion Channels
• B.03.a. Voltage-gated sodium channels
• B.03.b. Voltage-gated calcium channels
• B.03.c. Voltage-gated potassium channels
• B.03.d. Other ion channels
• B.04. Synaptic Transmission
• B.04.a. Presynaptic structure, organization, and function
• B.04.b. Transynaptic structure and extracellular dynamics
• B.04.c. Postsynaptic structure, organization, and function
• B.04.d. Pre- and postsynaptic modulation
• B.05. Synaptic Plasticity
• B.05.a. LTP and LTD – Pre- and postsynaptic mechanisms
• B.05.b. LTP and LTD – Kinases, phosphatases, and intracellular signaling
• B.05.c. Homeostatic plasticity
• B.05.d. Structural plasticity
• B.05.e. Transcription and translation in plasticity
• B.06. Intrinsic Membrane Properties and Signal integration
• B.06.a. Intrinsic properties and modulation of neuronal firing
• B.06.b. Somatic and dendritic integration
• B.07. Network Interactions
• B.07.a. Oscillations and synchrony
• B.07.b. Network interactions – Other
• B.07.c. Computational modelling of synaptic networks
• B.08. Epilepsy
• B.08.a. Epilepsy – Channels and synaptic mechanisms
• B.08.b. Epilepsy – Networks and post-seizure modifications
• B.08.c. Epilepsy – In vivo and behavioral studies
• B.08.d. Epilepsy – Animal models
• B.08.e. Anticonvulsant and antiepileptic therapies
• B.08.f. Epilepsy – Human studies
• B.09. Glial Mechanisms
• B.09.a. Astrocytes – Biology
• B.09.b. Astrocytes – Disease mechanisms
• B.09.c. Microglia – Biology
• B.09.d. Microglia – Disease mechanisms
• B.09.e. Oligodendrocytes – Biology
• B.09.f. Oligodendrocytes – Disease mechanisms
• B.09.g. Peripheral glia
• B.10. Neuro-Oncology
• B.10.a. Neuro-oncology

Theme C New!	Neural Aging and Degeneration

 

 

• C.01. Brain Wellness and Aging
• C.01.a. Brain wellness and aging – Molecular and cellular changes
• C.01.b. Brain wellness and aging – Metabolism, oxidative stress, and cellular mechanisms
• C.01.c. Brain wellness and aging – Pharmacological and non-pharmacological interventions
• C.01.d. Brain wellness and aging – Systemic factors and brain function
• C.01.e. Brain wellness – Mechanisms and biomarkers
• C.01.f. Natural brain aging – Behavior and cognitive disorders
• C.01.g. Natural brain aging – Neural mechanisms
• C.01.h. Learning and memory in aging
• C.02. Alzheimer's Disease and Other Dementias
• C.02.a. Alzheimer's disease – Genetics
• C.02.b. Alzheimer's disease – Transcriptomics and genomics (bulk/single cell transcriptomics, epigenomics, etc.)
• C.02.c. Alzheimer's disease – Other omics (mutli-omics, proteomics, lipidomics, glycomics, metabolomics, etc.)
• C.02.d. Alzheimer's disease – Neuroinflammation and immune actions – In vitro models
• C.02.e. Alzheimer's disease – Neuroinflammation and immune actions – In vivo models
• C.02.f. Glial cells and Alzheimer’s disease
• C.02.g. Alzheimer's disease – Blood flow and metabolism
• C.02.h. Alzheimer's disease – Synaptic dysfunctions
• C.02.i. Alzheimer's disease – Neural circuits
• C.02.j. Alzheimer's disease – Imaging
• C.02.k. Alzheimer's disease – Aβ mechanisms
• C.02.l. Tau mechanisms
• C.02.m. ApoE and associated pathways
• C.02.n. Alzheimer's disease therapeutic strategies – Amyloidosis models
• C.02.o. Alzheimer's disease therapeutic strategies – Tau
• C.02.p. Alzheimer's disease therapeutic strategies – Other
• C.02.q. Other dementias, proteinopathies, and pathologies
• C.02.r. Alzheimer's disease – Fluid biomarkers
• C.02.s. Alzheimer's disease – Other biomarkers
• C.03. Parkinson’s Disease
• C.03.a. Parkinson's disease – Alpha-synuclein
• C.03.b. Parkinson's disease – LRRK2 and other molecular mechanisms
• C.03.c. Parkinson's disease – Cellular mechanisms
• C.03.d. Parkinson's disease – Circuit mechanisms
• C.03.e. Parkinson's disease – Animal models
• C.03.f. Parkinson's disease – Neuroprotective mechanisms
• C.03.g. Parkinson's disease therapeutic strategies – Cellular models
• C.03.h. Parkinson's disease therapeutic strategies – Preclinical animal models – Small molecule therapeutics
• C.03.i. Parkinson's disease therapeutic strategies – Preclinical animal models – Other therapeutics
• C.03.j. Parkinson's disease therapeutic strategies – Clinical trials
• C.03.k. Parkinson's disease human studies – Genetics and diagnostic
• C.03.l. Parkinson's disease – Neuroinflammation and immune actions
• C.04. Movement Disorders Other than Parkinson's Disease
• C.04.a. Huntington's disease
• C.04.b. Ataxias and dystonia
• C.04.c. Tremors
• C.05. Tauopathies, Synucleinopathies, and Other Related Diseases
• C.05.a. Tauopathies, synucleinopathies, and other related diseases – Cellular and molecular mechanisms
• C.05.b. Tauopathies, synucleinopathies, and other related diseases – Animal models
• C.06. Neuromuscular Diseases
• C.06.a. ALS and motor neuron diseases – Human genetics and cellular mechanisms
• C.06.b. ALS and motor neuron diseases – In vitro studies
• C.06.c. ALS and motor neuron diseases – Animal models
• C.06.d. ALS and motor neuron diseases – Therapeutics
• C.06.e. Other neuromuscular diseases

Theme D New!	Neuroimmunity, Neurovasculature, and Neural Injury

 

 

• D.01. Neurotoxicity, Inflammation, and Neuroprotection
• D.01.a. Mechanisms of cellular stress and degeneration
• D.01.b. Neuroprotective mechanisms – Preclinical
• D.01.c. Neuroinflammation – Microglia
• D.01.d. Neuroinflammation – Microglia with peripheral immunity
• D.01.e. Neuroinflammation – Animal models
• D.01.f. Neuroinflammation – HIV and infections
• D.01.g. Neuroinvasive viruses
• D.02. Ischemia
• D.02.a. Ischemia – Molecular and cellular mechanisms
• D.02.b. Ischemia – Therapeutic, interventional, and translational studies
• D.03. Stroke
• D.03.a. Stroke, damage, or disease – Imaging and assessment
• D.03.b. Stroke, damage, or disease – Mechanisms of abnormal function
• D.03.c. Stroke recovery – Pharmacological approaches to therapy
• D.03.d. Stroke recovery – Non-pharmacological approaches to therapy
• D.04. Brain Injury and Trauma
• D.04.a. Brain injury – Cellular and molecular mechanisms
• D.04.b. Brain injury – Animal models – Mechanisms
• D.04.c. Brain injury – Animal models – Biomarkers and histology
• D.04.d. Brain injury – Human studies
• D.04.e. Brain injury – Therapeutic strategies
• D.05. Spinal Cord and Peripheral Nerve Injury and Plasticity
• D.05.a. Model systems – Axon regeneration
• D.05.b. Spinal cord injury – Cellular and molecular mechanisms
• D.05.c. Spinal cord injury – Animal models and human studies
• D.05.d. Spinal cord injury – Therapeutic strategies – In vivo – Pharmacological
• D.05.e. Spinal cord injury – Therapeutic strategies – In vivo – Non-pharmacological
• D.05.f. Spinal cord injury – Recovery
• D.05.g. Spinal cord injury – Training, rehabilitation, and repair
• D.05.h. Spinal cord injury – Plasticity and recovery
• D.05.i. Peripheral nerve injury and other diseases
• D.06. Multiple Sclerosis and Other Demyelinating Diseases
• D.06.a. Multiple sclerosis and other demyelinating diseases – Molecular and cellular mechanisms
• D.06.b. Multiple sclerosis and other demyelinating diseases – Human and animal studies and therapeutics

Theme E hidden sub-title if needed	Sensory Systems
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• E.01. Somatosensation – Pain and Itch
• E.01.a. Nociceptors and pruitoceptors
• E.01.b. Headache, migraine, and trigeminal circuits
• E.01.c. Pain – Spinal circuits
• E.01.d. Pain – Subcortical circuits
• E.01.e. Pain – Cortical processing
• E.01.f. Pain – Descending modulation
• E.01.g. Pain models
• E.01.h. Inflammatory pain
• E.01.i. Peripheral mechanisms of persistent pain
• E.01.j. Brain mechanisms of persistent pain
• E.01.k. Pain imaging and perception
• E.01.l. Non-opioid treatments for persistent pain
• E.01.m. Itch
• E.02. Somatosensation – Touch
• E.02.a. Somatosensation – Peripheral mechanisms and spinal circuits
• E.02.b. Somatosensation – Thalamic and cortical processing
• E.02.c. Barrel cortex
• E.02.d. Somatosensation – Stimulus feature neural coding and response properties
• E.03. The Chemical Senses
• E.03.a. Olfaction – Peripheral mechanisms
• E.03.b. Olfaction – Higher-order circuits
• E.03.c. Olfaction – Behavior, perception, and its relation to neurophysiology
• E.03.d. Taste
• E.04. Interoception
• E.04.a. Peripheral mechanisms – Mechanosensation, propioception, and chemosensation
• E.04.b. Peripheral mechanisms – Vagal afferents
• E.04.c. Interoception – Central pathways
• E.05. Auditory and Vestibular Systems
• E.05.a. Hair cells and the periphery
• E.05.b. Auditory processing – Sound localization and binaural interactions
• E.05.c. Auditory processing – Temporal, frequency, and spectral processing
• E.05.d. Auditory processing – Vocalizations and natural sounds
• E.05.e. Auditory processing – Circuits, synapses, and neurotransmitters
• E.05.f. Auditory processing – Neural coding, experiment, and theory
• E.05.g. Auditory processing – Perception, cognition, and action
• E.05.h. Vestibular processing and perception
• E.06. Vision
• E.06.a. Photoreceptors and retinal circuitry
• E.06.b. Visual pathways – Subcortical and other
• E.06.c. Visual cortex – Cell types and circuits
• E.06.d. Visual cortex – Populations
• E.06.e. Visual system – Responses during behavior
• E.06.f. Visual system – Response modulation and adaptation
• E.06.g. Higher visual areas
• E.06.h. Visual cortex – Functional architecture and circuits
• E.06.i. Visual system – Plasticity
• E.06.j. Processing of contrast, form, and color
• E.06.k. Visual motion
• E.06.l. Visual system – Category-selective cortical processing
• E.06.m. Visual learning, memory, and categorization
• E.06.n. Visual cognition – Attention and decision-making
• E.07. Visual Sensory-Motor Processing
• E.07.a. Sensorimotor transformation – Behavior and neuroprocessing
• E.08. Multisensory Integration
• E.08.a. Cross-modal processing – Spatial and temporal factors
• E.08.b. Cross-modal processing – Neural circuitry and development
• E.08.c. Cross-modal processing – In humans

Theme F hidden sub-title if needed	Motor Systems
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• F.01. Eye Movements
• F.01.a. Eye movements
• F.02. Cerebellum
• F.02.a. Cerebellum – Cell types and circuit physiology
• F.02.b. Cerebellum – Sensorimotor and learning
• F.02.c. Cerebellum – Non-motor functions
• F.03. Basal Ganglia
• F.03.a. Basal ganglia – Transmitters and neuromodulation
• F.03.b. Basal ganglia – Physiology and plasticity
• F.03.c. Basal ganglia – Systems behavior
• F.04. Voluntary Movements
• F.04.a. Action/Sensation/Movement Selection – Human (behavior/physiology/imaging)
• F.04.b. Action/Sensation/Movement Selection – Animal (behavior/physiology/imaging)
• F.04.c. Motor learning – Human (behavior/physiology/imaging)
• F.04.d. Motor learning – Animal (behavior/physiology/imaging)
• F.04.e. Cortical planning and execution – Human (behavior/physiology/imaging)
• F.04.f. Cortical planning and execution – Animal (behavior/physiology/imaging)
• F.05. Brain-Machine Interface
• F.05.a. BMI neurophysiology – Implanted electrodes and other direct interactions with neurons
• F.05.b. BMI neurophysiology – Decoding, neurophysiology and processing
• F.05.c. Neuroprosthetics – Control of computer, devices, and body parts
• F.05.d. Neuroprosthetics – Non-motor interfaces
• F.06. Posture and Gait
• F.06.a. Posture and gait – Kinematics, muscle activity, exercise and fatigue, and biomechanics
• F.06.b. Posture and gait – Reflexes and low-level control
• F.06.c. Posture and gait – Higher order control, multi-task integration, and theory
• F.06.d. Posture and gait – Aging, injury, and disease
• F.07. Rhythmic Pattern Generation
• F.07.a. Rhythmic pattern generation – Cellular properties and connectivity
• F.07.b. Rhythmic pattern generation – Neuromodulation
• F.08. Respiratory Regulation
• F.08.a. Respiratory control
• F.09. Motor Neurons and Muscle
• F.09.a. Motor neurons – Activity, sensory, and central control – Exercise, injury, and disease
• F.09.b. Motor neurons – Development, identification, intrinsic properties, and modulation
• F.09.c. Motor unit recordings, kinematics, and EMG
• F.09.d. Motorneuron-muscle interface and muscle physiology/biochemistry

Theme G hidden sub-title if needed	Integrative Physiology and Behavior
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• G.01. Neuroethology
• G.01.a. Neuroethology – Sensory systems
• G.01.b. Neuroethology – Sensory motor systems
• G.01.c. Neuroethology – Vocal/social communication
• G.02. Neuroendrocrine Processes and Behavior
• G.02.a. Social, sexual, and parental behaviors
• G.02.b. Defensive behavior and aggression
• G.02.c. Hormones and cognition
• G.02.d. Neuroendocrine anatomy and physiology
• G.03. Stress and the Brain
• G.03.a. Stress – Neuroimmunology
• G.03.b. Stress – Cellular actions
• G.03.c. Early-life stress – Molecular and cellular mechanisms
• G.03.d. Early-life stress – Circuit mechanisms and effects on behavior
• G.03.e. Adolescent stress – Behavior and physiology
• G.03.f. Stress-modulated pathways – Cognition, learning, and memory circuits
• G.03.g. Stress-modulated pathways – Reward and motivational drive circuits
• G.03.h. Stress-modulated pathways – Anatomy, physiology, neurochemistry
• G.04. Neuroimmunology and Neurovirology
• G.04.a. Neuroimmunology and neurovirology
• G.05. Brain Blood Flow, Metabolism, and Homeostasis
• G.05.a. Energy metabolism
• G.05.b. Blood flow
• G.05.c. Blood brain barrier
• G.05.d. Functional imaging
• G.06. Autonomic Regulation
• G.06.a. Cardiovascular regulation
• G.06.b. Gastrointestinal, renal, urinary, and reproductive regulation
• G.06.c. Thermoregulation, respiratory regulation, other
• G.07. Biological Rhythms and Sleep
• G.07.a. Physiology of biological clocks and rhythms
• G.07.b. Sleep regulation – Molecular, cellular, and pharmacological
• G.07.c. Sleep regulation – Anatomy, physiology, neurochemistry
• G.07.d. Sleep – Systems
• G.07.e. Sleep – Behavior
• G.08. Food and Water Intake and Energy Balance
• G.08.a. Integration of peripheral signals
• G.08.b. Central pathways – Anatomy and development
• G.08.c. Regulation by peptides, monoamines, and other small molecules
• G.09. Neurobiology in Changing Ecosystems
• G.09.a. Neurobiology in changing ecosystems

Theme H hidden sub-title if needed	Motivation and Emotion
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• H.01. Fear and Aversive Learning and Memory
• H.01.a. Fear and aversive learning and memory – Acquisition and memory modification
• H.01.b. Fear and aversive learning and memory – Neural circuits
• H.01.c. Fear and aversive learning and memory – Neural mechanisms
• H.02. Reward and Appetitive Learning and Memory
• H.02.a. Reward and appetitive learning and memory – Acquisition and memory modification
• H.02.b. Reward and appetitive learning and memory – Neural circuits
• H.02.c. Reward and appetitive learning and memory – Neural mechanisms
• H.02.d. Reward and appetitive learning and memory – Neuropharmacology
• H.03. Motivation
• H.03.a. Motivation – Regulation of aversive behavior
• H.03.b. Motivation – Circuit regulation of reward-related behavior
• H.03.c. Motivation – Cellular and molecular regulation of reward-related behavior
• H.03.d. Motivation – Social communication and behavior
• H.04. Emotion
• H.04.a. Human emotion
• H.04.b. Emotion – Neural circuitry
• H.04.c. Emotion – Fear, anxiety, and pain
• H.04.d. Emotion – Positive and negative emotional states
• H.05. Mood Disorders
• H.05.a. Mood disorders – Human imaging and behavioral studies
• H.05.b. Mood disorders – Treatment and drug discovery
• H.05.c. Mood disorders – Behavioral studies in animal models
• H.05.d. Mood disorders – Neural mechanisms in animal models
• H.05.e. Mood disorders – Animal models of therapeutics
• H.06. Anxiety Disorders
• H.06.a. Anxiety disorders – Human studies and therapeutic approaches
• H.06.b. Anxiety disorders – Preclinical models
• H.07. Post-Traumatic Stress Disorder and Other Psychiatric Disorders
• H.07.a. Post-traumatic stress disorder and other psychiatric disorders – Human studies and therapeutic approaches
• H.07.b. Post-traumatic stress disorder and other psychiatric disorders – Preclinical models
• H.08. Drugs of Abuse and Addiction
• H.08.a. Addictive drugs – Developmental effects, drug tolerance, dependence, and toxicity
• H.08.b. Addictive drugs – Neural mechanism
• H.08.c. Addictive drugs – Combination use
• H.08.d. Addiction – Genetics, translational, and clinical studies
• H.08.e. Addiction – Learning and memory
• H.08.f. Alcohol – Neural mechanisms
• H.08.g. Alcohol – Cognitive and behavioral effects
• H.08.h. Drug discovery and treatment
• H.08.i. Amphetamines – Mechanisms of addiction
• H.08.j. Cannabinoids – Behavioral and neural mechanisms of addiction
• H.08.k. Cocaine – Reinforcement, seeking, reinstatement, and other behavioral effects
• H.08.l. Cocaine – Cell signaling, circuitry, and neurophysiology
• H.08.m. Opioids – Reinforcement, seeking, and reinstatement
• H.08.n. Opioids – Cell signaling, circuitry, and neurophysiology
• H.08.o. Nicotine – Behavioral and neural mechanisms of addiction
• H.08.p. Hallucinogens – Neural mechanisms

Theme I hidden sub-title if needed	Cognition
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• I.01. Attention
• I.01.a. Mechanisms of attention – Human studies
• I.01.b. Mechanisms of attention – Animal models
• I.02. Perception and Imagery
• I.02.a. Human perception, imagery, and imagination
• I.03. Decision Making
• I.03.a. Decision making – Computational models
• I.03.b. Prefrontal cortex
• I.03.c. Decision making – Orbitofrontal and corticolimbic circuits
• I.03.d. Decision making – Neural mechanisms of adaptive and maladaptive choice
• I.03.e. Neural mechanisms – Choice in reward
• I.03.f. Neural mechanisms – Value
• I.03.g. Neural mechanisms - Risk and ambiguity
• I.04. Executive Functions
• I.04.a. Prefrontal mechanisms
• I.04.b. Executive functions – Network activity
• I.04.c. Effects on learning and memory
• I.04.d. Inhibitory control
• I.04.e. Disorders of executive functions and inhibitory control
• I.05. Working Memory
• I.05.a. Central and prefrontal mechanisms
• I.05.b. Working memory – Distributed mechanisms
• I.05.c. Working memory – Behavioral studies
• I.06. Social Cognition
• I.06.a. Social cognition – Human behavior, disorders, and mechanisms
• I.06.b. Social cognition – Animal behavior
• I.06.c. Social cognition – Circuits and neural mechanisms
• I.07. Long-Term Memory
• I.07.a. Human LTM – Consolidation and reconsolidation
• I.07.b. Human LTM – Medial temporal lobe
• I.07.c. Human LTM – Encoding and retrieval
• I.07.d. Episodic and episodic-like memory
• I.08. Learning and Memory
• I.08.a. Prefrontal cortex networks
• I.08.b. Learning and memory – Cortical and subcortical circuits
• I.08.c. Hippocampal circuit
• I.08.d. Hippocampal – Cortical interactions
• I.08.e. Hippocampal – Entorhinal cortex
• I.08.f. Hippocampal – Subcortical interactions
• I.08.g. Intrinsic hippocampal circuits
• I.08.h. Dentate gyrus
• I.08.i. The role of oscillations
• I.08.j. Learning and memory – Genes and molecular mechanisms
• I.08.k. Learning and memory – Physiology
• I.08.l. Learning and memory – Pharmacology
• I.08.m. Learning and memory – Invertebrates
• I.08.n. Timing and temporal processing
• I.09. Spatial Navigation
• I.09.a. Cortical and hippocampal circuits
• I.09.b. Place cells
• I.09.c. Grid cells and other spatially modulated cells
• I.09.d. Human navigation
• I.09.e. Animal navigation
• I.10. Human Learning and Cognition
• I.10.a. Relational and spatial learning
• I.10.b. Motor and skill learning
• I.10.c. Feedback, reinforcement, and reward
• I.10.d. Associative learning
• I.10.e. Timing and temporal processing
• I.11. Language
• I.11.a. Language – Acquisition, usage, and disorders
• I.11.b. Language – Neural circuits and mechanisms

Theme J hidden sub-title if needed	Techniques
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• J.01. Molecular, Biochemical, and Genetic Techniques
• J.01.a. Biochemical and molecular techniques
• J.01.b. Genetic techniques
• J.01.c. Genomic and transcriptomic techniques
• J.01.d. Single-cell techniques
• J.02. Systems Biology and Bioinformatics
• J.02.a. Genomics, proteomics, and bioinformatics
• J.02.b. Systems biology and multiomics approaches
• J.03. Anatomical Methods
• J.03.a. Sample preparation and novel probes
• J.03.b. Light and electron microscopy
• J.03.c. Circuit tracing
• J.03.d. Connectomics
• J.04. Physiological Methods
• J.04.a. Optical methodology – Development
• J.04.b. Optical methodology – Application
• J.04.c. Probe design and engineering
• J.04.d. Electrophysiology – Cellular and network models
• J.04.e. Electrophysiology – Electrode arrays
• J.05. Biomarker, Drug Discovery, and Experimental Therapeutics
• J.05.a. Neuropsychiatric disorders
• J.05.b. Neurodegenerative diseases (AD, PD, MS, stroke)
• J.05.c. Drug delivery
• J.05.d. Gene, protein, or cell based approaches
• J.06. Computation, Modeling, and Simulation
• J.06.a. Cellular and network models
• J.06.b. Network computations – Theory and modeling
• J.06.c. Network computations – Data analytics and statistics
• J.06.d. Computational tools – Experimental
• J.06.e. Computational tools – Analytical
• J.07. Data Analysis and Statistics
• J.07.a. Data analysis and statistics – Human data
• J.07.b. Software Tools
• J.08. Methods to Modulate Neural Activity
• J.08.a. Electrical
• J.08.b. Optogenetic
• J.08.c. Other

Theme K New!	History, Education, and Society

 

 

• K.01. History of Neuroscience
• K.01.a. History of neuroscience
• K.02. Teaching of Neuroscience
• K.02.a. K-12 teaching and outreach of neuroscience
• K.02.b. College teaching of neuroscience
• K.02.c. Graduate and professional teaching of neuroscience
• K.03. Public Awareness of Neuroscience
• K.03.a. Outreach activities of neuroscience
• K.04. Ethical and Policy Issues in Neuroscience
• K.04.a. Ethical and policy issues in neuroscience

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