Dendritic Learning as a Paradigm Shift in Brain Learning.

Shira Sardi, Roni Vardi, Amir Goldental, Yael Tugendhaft, Herut Uzan, Ido Kanter

June 2018 ACS Chem Neurosci

Synopsis of Social media discussions

The social discussions revolve around brief acknowledgments of the publication, such as retweets highlighting the article's title and hashtags like #ai and #neuroscience. The tone suggests curiosity and recognition of its relevance but lacks detailed commentary or strong opinions, reflecting moderate interest and impact.

A
Agreement
 Neither agree nor disagree

The discussions show neutrality, with minimal expressions of strong support or disagreement, mostly acknowledging the publication without critical debate.

I
Interest
 Moderate level of interest

The posts exhibit some interest, as indicated by hashtags like #ai and #neuroscience, but lack detailed engagement or enthusiasm.

E
Engagement
 Neutral engagement

Engagement appears moderate; mentions are brief and mostly serve as references rather than in-depth analysis.

I
Impact
 Moderate level of impact

The discussions suggest the publication is recognized but doesn't appear to be causing significant shifts in perspectives or practices.

Social Mentions

YouTube

2 Videos

Twitter

2 Posts

Metrics

Video Views

471

Total Likes

6

Extended Reach

1,442

Social Features

4

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

Dendritic Learning as a Brain-Inspired Alternative to Synaptic Plasticity

Dendritic Learning as a Brain-Inspired Alternative to Synaptic Plasticity

Dendritic learning offers a faster, more effective process for brain learning than traditional synaptic plasticity, emphasizing learning near neurons through dendritic structures and highlighting the importance of weak synapses for plasticity and adaptation.

Kanter Lab

June 14, 2022

428 views

Dendritic Learning: A Faster Alternative to Synaptic Plasticity

Dendritic Learning: A Faster Alternative to Synaptic Plasticity

Dendritic learning is a faster and more effective process for brain learning compared to traditional synaptic plasticity. It emphasizes learning near the neuron through dendritic structures, highlighting the importance of weak synapses and biological mechanisms.

Kanter Lab

January 1, 2025

44 views

  • (A_Y)m
    @A_Ym (Twitter)

    RT @ProjectAGI: "Dendritic Learning as a Paradigm Shift in Brain Learning", by Sardi et al. https://t.co/GV2MWgmgh8 #ai #neuroscience #bio…
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    September 29, 2019

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  • Cerenaut
    @cerenaut_ai (Twitter)

    "Dendritic Learning as a Paradigm Shift in Brain Learning", by Sardi et al. https://t.co/GV2MWgmgh8 #ai #neuroscience #bioagi https://t.co/JY4oHOrsKz
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    September 29, 2019

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Abstract Synopsis

  • Dendritic learning is presented as a faster and more effective process for brain learning compared to the traditional focus on slow synaptic plasticity, suggesting that learning happens near the neuron through dendritic structures.
  • This paradigm highlights that dendritic strengths are self-oscillating and that weak synapses, which make up most of the brain, are actually crucial for plasticity and learning.
  • These findings imply a need to rethink current treatments for brain disorders and improve understanding of chemical and biological mechanisms to better support learning and brain function.]