Keyword search (3,448 papers available)


Neural substrates of appetitive and aversive prediction error.

Author(s): Iordanova MD, Yau JO, McDannald MA, Corbit LH

Prediction error, defined by the discrepancy between real and expected outcomes, lies at the core of associative learning. Behavioural investigations have provided evidence that prediction error up- and down-regulates associative relationships, and allocate...

Article GUID: 33453307
Adaptive behaviour under conflict: deconstructing extinction, reversal, and active avoidance learning.

Author(s): Manning EE, Bradfield LA, Iordanova MD

In complex environments, organisms must respond adaptively to situations despite conflicting information. Under natural (i.e. non-laboratory) circumstances, it is rare that cues or responses are consistently paired with a single outcome. Inconsistent pairin...

Article GUID: 33035525
Different methods of fear reduction are supported by distinct cortical substrates.

Author(s): Lay BP, Pitaru AA, Boulianne N, Esber GR, Iordanova MD

Elife. 2020 Jun 26;9: Authors: Lay BP, Pitaru AA, Boulianne N, Esber GR, Iordanova MD

Article GUID: 32589138
A self-initiated cue-reward learning procedure for neural recording in rodents.

Author(s): Reverte I, Volz S, Alhazmi FH, Kang M, Kaufman K, Chan S, Jou C, Iordanova MD, Esber GR

J Neurosci Methods. 2020 Mar 02;:108671 Authors: Reverte I, Volz S, Alhazmi FH, Kang M, Kaufman K, Chan S, Jou C, Iordanova MD, Esber GR

Article GUID: 32135212
Causal evidence supporting the proposal that dopamine transients function as temporal difference prediction errors.

Author(s): Maes EJP, Sharpe MJ, Usypchuk AA, Lozzi M, Chang CY, Gardner MPH, Schoenbaum G, Iordanova MD

Nat Neurosci. 2020 Jan 20;: Authors: Maes EJP, Sharpe MJ, Usypchuk AA, Lozzi M, Chang CY, Gardner MPH, Schoenbaum G, Iordanova MD

Article GUID: 31959935
Neural correlates of two different types of extinction learning in the amygdala central nucleus.

Author(s): Iordanova MD, Deroche ML, Esber GR, Schoenbaum G

Nat Commun. 2016 08 17;7:12330 Authors: Iordanova MD, Deroche ML, Esber GR, Schoenbaum G

Article GUID: 27531638
Dopamine Signaling Is Critical for Supporting Cue-Driven Behavioral Control.

Author(s): Iordanova MD

Neuroscience. 2019 May 17;: Authors: Iordanova MD

Article GUID: 31103706
Thought control with the dopamine transient.

Author(s): Iordanova MD

Learn Behav. 2018 Oct 18;: Authors: Iordanova MD

Article GUID: 30338459
Dissociation of Appetitive Overexpectation and Extinction in the Infralimic Cortex.

Author(s): Lay BPP, Nicolosi M, Usypchuk AA, Esber GR, Iordanova MD

Cereb Cortex. 2018 Oct 29;: Authors: Lay BPP, Nicolosi M, Usypchuk AA, Esber GR, Iordanova MD

Article GUID: 30371757
Corrigendum: Dissociation of Appetitive Overexpectation and Extinction in the Infralimbic Cortex.

Author(s): Lay BPP, Nicolosi M, Usypchuk AA, Esber GR, Iordanova MD

Cereb Cortex. 2019 Apr 01;29(4):1703 Authors: Lay BPP, Nicolosi M, Usypchuk AA, Esber GR, Iordanova MD PMID: 30590441 [PubMed - in process]

Article GUID: 30590441
Title:A self-initiated cue-reward learning procedure for neural recording in rodents.
Authors:Reverte IVolz SAlhazmi FHKang MKaufman KChan SJou CIordanova MDEsber GR
Link:https://www.ncbi.nlm.nih.gov/pubmed/32135212?dopt=Abstract
DOI:10.1016/j.jneumeth.2020.108671
Category:J Neurosci Methods
PMID:32135212
Dept Affiliation: CSBN
1 Department of Psychology, Brooklyn College, City University of New York, 2900 Bedford Ave, James Hall, 4414, Brooklyn, NY, 11210, United States.
2 The Graduate Center, City University of New York, 365 5th Ave, New York, NY, 10016, United States.
3 Concordia University, Department of Psychology, CSBN/GRNC, 7141 Sherbrooke St. W., Montreal, H4B 1R6, Canada.
4 Department of Psychology, Brooklyn College, City University of New York, 2900 Bedford Ave, James Hall, 4414, Brooklyn, NY, 11210, United States; The Graduate Center, City University of New York, 365 5th Ave, New York, NY, 10016, United States. Electronic address: GEsber@brooklyn.cuny.edu.

Description:

A self-initiated cue-reward learning procedure for neural recording in rodents.

J Neurosci Methods. 2020 Mar 02;:108671

Authors: Reverte I, Volz S, Alhazmi FH, Kang M, Kaufman K, Chan S, Jou C, Iordanova MD, Esber GR

Abstract

BACKGROUND: Single-unit recording in Pavlovian conditioning tasks requires the use of within-subject designs as well as sampling a considerable number of trials per trial type and session, which increases the total trial count. Pavlovian conditioning, on the other hand, requires a long average intertrial interval (ITI) relative to cue duration for cue-specific learning to occur. These requirements combined can make the session duration unfeasibly long.

NEW METHOD: To circumvent this issue, we developed a self-initiated variant of the Pavlovian magazine-approach procedure in rodents. Unlike the standard procedure, where the animals passively receive the trials, the self-initiated procedure grants animals agency to self-administer and self-pace trials from a predetermined, pseudorandomized list. Critically, whereas in the standard procedure the typical ITI is in the order of minutes, our procedure uses a much shorter ITI (10?s).

RESULTS: Despite such a short ITI, discrimination learning in the self-initiated procedure is comparable to that observed in the standard procedure with a typical ITI, and superior to that observed in the standard procedure with an equally short ITI.

COMPARISON WITH EXISTING METHOD(S): The self-initiated procedure permits delivering 100 trials in a ~1-h session, almost doubling the number of trials safely attainable over that period with the standard procedure.

CONCLUSIONS: The self-initiated procedure enhances the collection of neural correlates of cue-reward learning while producing good discrimination performance. Other advantages for neural recording studies include ensuring that at the start of each trial the animal is engaged, attentive and in the same location within the conditioning chamber.

PMID: 32135212 [PubMed - as supplied by publisher]