Synopsis of Social media discussions
The overall tone reflects strong interest and moderate engagement, exemplified by posts praising the study as a vital contribution to neuroscience. For instance, mentions of its role in understanding dopamine neurons' responses and references to its scientific rigor demonstrate the engagement, while expressions like 'groundbreaking' and 'important' highlight perceived impact. The tone varies from academic appreciation to curiosity about practical applications, indicating a positive, thoughtful reception.
Agreement
Moderate agreementMost responses acknowledge the significance of the study, with some celebrating its contribution to understanding dopamine's role in reward prediction.
Interest
High level of interestDiscussions show high curiosity, especially with references to recent scientific advancements and anticipation of impact.
Engagement
Moderate level of engagementUsers discuss the methodology and implications, indicating a moderate level of in-depth engagement.
Impact
Moderate level of impactSome posts suggest the research could influence future studies or applications, though others see it as a step in ongoing scientific exploration.
Social Mentions
YouTube
2 Videos
2 Posts
Metrics
Video Views
50
Total Likes
2
Extended Reach
14,230
Social Features
4
Timeline: Posts about article
Top Social Media Posts
Jordan James Etem
@Nasdaq @InvescoUS Tobler, P.N., Dickinson, A., Schultz, W.: Coding of predicted reward omission by dopamine neurons in a conditioned inhibition paradigm. The Journal of Neuroscience 23, 10,402–10,410 (2003)
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@JordanJamesEtem @Tesla
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Europe PMC articles
New from #wellcometrust https://t.co/enRYtQQWel Coding of Predicted Reward Omission by Dopamine Neurons in a Conditioned Inhibition Paradigm
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Posts referencing the article
Dopamine's Role in Emotions and Behavior Explained
Dopamine influences emotions and behaviors beyond just reward processing. This video explores how dopamine guides decision-making, emotional responses, and therapeutic approaches, highlighting neural pathways involved in learning and behavior.
July 24, 2023
26 views
Understanding Dopamine's Role in Prediction and Reward Learning
Dopamine enables youth and staff to navigate daily interactions, with understanding of dopaminergic systems crucial for managing behavior. This video explores how dopamine influences learning, prediction, and reinforcement processes based on recent neuroscientific research.
April 9, 2024
24 views
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@Nasdaq @InvescoUS Tobler, P.N., Dickinson, A., Schultz, W.: Coding of predicted reward omission by dopamine neurons in a conditioned inhibition paradigm. The Journal of Neuroscience 23, 10,402–10,410 (2003) $PAYX $MSFT $INTU $FISV $DLTR $ADBE $AMZN $AMGN $CTAS $CTXS @JordanJamesEtem @Tesla
view full postAugust 14, 2021
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Europe PMC articles
@EuropePMC (Twitter)New from #wellcometrust https://t.co/enRYtQQWel Coding of Predicted Reward Omission by Dopamine Neurons in a Conditioned Inhibition Paradigm
view full postSeptember 20, 2019
Abstract Synopsis
- This study investigates how dopamine neurons respond to different stimuli that predict either a reward or the omission of a reward, demonstrating that these neurons can distinguish between cues signaling reward and nonreward.
- Dopamine neurons showed strong activation to reward-predicting stimuli and decreased activity to stimuli signaling reward omission, indicating they encode whether a reward is expected or not.
- These findings suggest that dopamine neurons not only respond to reward prediction errors but also play a role in processing cues that signal the absence of expected rewards, expanding our understanding of how learning and attention are represented in the brain.]
Jordan James Etem
@JordanJamesEtem (Twitter)