Distinct nonlinear spectrotemporal integration in primary and secondary auditory cortices.

Amber M Kline, Destinee A Aponte, Hiroyuki K Kato

May 2023 Sci Rep

Synopsis of Social media discussions

The overall tone is informational, with posts primarily sharing the publication's title and topics, such as the distinction in processing between primary and secondary auditory cortices, using neutral language like 'New Research' and hashtags. This indicates moderate interest but limited in-depth discussion or perceived impact.

A
Agreement
 Neither agree nor disagree

The posts mainly acknowledge the study without expressing clear support or disagreement, indicating a neutral stance.

I
Interest
 Moderate level of interest

Posts express some curiosity by highlighting the new research and calling it 'new research,' but overall interest remains moderate.

E
Engagement
 Neutral engagement

The discussions are limited to mentions of the article's title and brief references, showing low-depth engagement.

I
Impact
 Neutral impact

Messages do not suggest the research has immediate or widespread influence, reflecting a neutral impact perspective.

Social Mentions

YouTube

1 Videos

Twitter

4 Posts

Metrics

Video Views

18

Total Likes

2

Extended Reach

197,946

Social Features

5

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

Distinct Auditory Cortex Processing of Complex Sounds in Mice

Distinct Auditory Cortex Processing of Complex Sounds in Mice

This study investigates how primary and secondary auditory cortices in mice process complex sounds differently, highlighting their distinct roles in sound perception and the implications for auditory neural pathways.

Medicine RTCL TV

August 30, 2023

18 views

  • UNC Psychiatry
    @UNCPsychiatry (Twitter)

    New Research! Distinct nonlinear spectrotemporal integration in primary and secondary auditory cortices: Hiroyuki Kato, PhD
    view full post

    June 9, 2023

    1

  • Biorxiv Reddit
    @BiorxivReddit (Twitter)

    Distinct nonlinear spectrotemporal integration in primary and secondary auditory cortices https://t.co/M7akNCVfU8
    view full post

    January 26, 2023

  • bioRxiv Neuroscience
    @biorxiv_neursci (Twitter)

    Distinct nonlinear spectrotemporal integration in primary and secondary auditory cortices https://t.co/lwEebO0qSV #biorxiv_neursci
    view full post

    January 26, 2023

  • bioRxiv
    @biorxivpreprint (Twitter)

    Distinct nonlinear spectrotemporal integration in primary and secondary auditory cortices https://t.co/lgXCWWHNwl #bioRxiv
    view full post

    January 26, 2023

    1

Abstract Synopsis

  • This study investigates how the primary (A1) and secondary (A2) auditory cortices in mice process complex sounds differently, using advanced imaging techniques to measure neuron responses to varying sound frequencies and timings.
  • Neurons in A1 show asymmetric responses that help distinguish pitch sweep directions, while neurons in A2 integrate multiple sounds simultaneously, especially when tones are played together at the same time.
  • The findings suggest that A1 and A2 serve different but complementary roles in processing sound complexity, indicating they may operate in parallel rather than in a strict sequence during auditory perception.]