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Scientific Research

Stay apprised of findings from across the field with summaries of research published in SfN journals, and learn about rigor, responsible conduct of research, and other topics important to the scientific community.
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Scientific Research
A Female-Specific Role for Calcitonin Gene-Related Peptide (CGRP) in Rodent Pain Models
May 24, 2022 12:00 PM - 1:00 PM ET
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Scientific Research
Communicating on the Fly — What Neural Circuit Computations in Drosophila Can Teach Us About Our Own Brains
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  • The ClaustrumClassifier (ClaCla): a neural-network assisted cell classification tool. A trained neural network developed to facilitate the classification of claustral neurons in four steps. Step 1, Input raw data file. Step 2, Automated extraction of intrinsic electrical properties. Step 3, Neuronal network assisted cell classification. Step 4, The classifier returns the likelihood that the classified cell belongs to one of the eight cell subtypes.
    Claustrum Neurons Go To Unexpected Places. Here’s How to Find Them
    Oct 15, 2020
  • This image shows a neuroprogenitor culture used to study the effect of the phagocytic microglial secretome. Nuclei are shown in white (DAPI), progenitors in green (nestin), astrocytes in red (GFAP) and neuroblasts in magenta (doublecortin). Image credits: Irune Diaz-Aparicio.
    Exploring Recent Discoveries in Neuroscience Research
    October 26, 2020 2:00 PM - 3:00 PM EDT
  • L5 targets a wide range of thalamic nuclei and extrathalamic nuclei, although specific targets vary across injection site. Prasad et al. JNeurosci. 2020; 40(30):5785-5796, Figure 8.
    Layer 5 of Neocortex Gives Rise to Diverse Corticofugal Pathways
    Oct 01, 2020
  • This image shows a parvalbuminexpressing inhibitory basket cell (green) in the hippocampus of an amyloid-depositing 5xFAD mouse. The cell has been morphologically reconstructed after patch clamp recording of spontaneous synaptic activity during sharp wave ripple events. Non-patched parvalbumin neurons are labeled in red.
    The Human Brain Tracks Speech More Closely in Time Than Other Sounds
    Sep 24, 2020
  • The Neuroscience of Gaming
    Sep 15, 2015
  • This image shows phosphorylated (inactivated) cofilin (red) in spinal cord. Phosphorylated cofilin is present at high levels in in a broad swathe of embryonic spinal neurons (green), including motor neurons (blue).
    Revealing a Sexually Differentiated Neural Circuit for Sensing Social Stimuli
    Sep 17, 2020
  • A poster presenter explaining his research to an annual meeting attendee
    How SfN's Founding Hopes Still Fuel Goals for the Next 50 Years
    Sep 16, 2020
  • Sebnum Tuncdemir accepts the Nemko Prize in Cellular or Molecular Neuroscience.
    A Postdoc Reflects Back on the Ups and Downs of Her Thesis Research
    Sep 10, 2020
  • Map of "the smell network."
    The Smell Network: The Brain’s Architecture for Human Olfaction
    Sep 03, 2020
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    Neuroethics Meets Artificial Intelligence
    Jan 22, 2020
  • Figure 1: Microbiome depletion alters how the brain responds to opioids. Microbiome intact animals in the intoxication state (left) exhibited increases in neuronal recruitment (green arrows) in the basolateral amygdala (BLA), while the central amygdala (CeA), periaqueductal gray (PAG), and locus coeruleus (LC) do not exhibit increases (blue dash) compared to control animals. During withdrawal, microbiome intact animals exhibit increased recruitment of the CeA and lateral habenula (LHB) compared to control animals. Microbiome depleted animals (right) exhibit a reduction of recruitment in the BLA, and increases in the CeA, PAG, and LC in the intoxication state compared to intact animals. Additionally, microbiome depleted animals in the withdrawal state exhibit a decrease in the CeA and an increase in recruitment in the Lateral Habenula (LHB) compared to intact animals.
    Depletion of the Microbiome Changes How the Brain Responds to Opioids
    Aug 13, 2020
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    Development and Regeneration Lightning Talks
    Aug 12, 2020
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