Publications by authors named "Ivy B Hoang"
Dopamine release in the nucleus accumbens core (NAcC) is generally considered to be a proxy for phasic firing of the ventral tegmental area dopamine (VTA) neurons. Thus, dopamine release in NAcC is hypothesized to reflect a unitary role in reward prediction error signaling. However, recent studies reveal more diverse roles of dopamine neurons, which support an emerging idea that dopamine regulates learning differently in distinct circuits.
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- Dopamine neurons in the ventral tegmental area play a key role in intracranial self-stimulation (ICSS), but their exact cognitive functions are still not fully understood.
- 20-Hz stimulation of dopamine neurons mimics a weak prediction error and fails to support ICSS beyond a simple reinforcement schedule, lacking the ability to assign value to cues.
- In contrast, 50-Hz stimulation significantly enhances ICSS, providing a specific reward representation that motivates behavior, indicating that the frequency of stimulation affects dopamine release modulations.
For over two decades, phasic activity in midbrain dopamine neurons was considered synonymous with the prediction error in temporal-difference reinforcement learning. Central to this proposal is the notion that reward-predictive stimuli become endowed with the scalar value of predicted rewards. When these cues are subsequently encountered, their predictive value is compared to the value of the actual reward received, allowing for the calculation of prediction errors.
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