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1 tion frames the dopamine signal as carrying 'incentive salience'.
2 istent with motivation-based theories (e.g., incentive salience).
3 e differences in cued approach behaviors and incentive salience.
4 nt operating rules that control motivational incentive salience.
5 ociated with these individual differences in incentive salience.
6 ent to which reward cues are attributed with incentive salience.
7 e degree to which the CS was attributed with incentive salience.
8 d 'motive circuit' only if it is imbued with incentive salience.
9 reward prediction error, working memory, and incentive salience.
10 ie motivated behavior and the attribution of incentive salience.
11 ional "wanting" component of reward, such as incentive salience.
12 that reinforcement will occur, or attributes incentive salience.
13 orcement learning, motivation, aversion, and incentive salience.
14 ative emotionality and elevated CRP, but not incentive salience.
15 ue to the cues having motivational value, or incentive salience.
16 d cues with incentive motivational value, or incentive salience.
17 by this food-specific circuit increases the incentive salience(13) of food cues, and thus facilitate
18 uitry that is involved in the attribution of incentive salience after repeated exposure to alcohol.
19 ERPs to show that these distractors acquire incentive salience and draw attention, but do not captur
20 at is caused by a combination of exaggerated incentive salience and habit formation, reward deficits
21 Addictions Neuroclinical Assessment domains incentive salience and negative emotionality were derive
22 n of key neurochemical circuits that mediate incentive-salience and/or reward systems (dopamine, opio
23 eward: 'liking' (hedonic impact), 'wanting' (incentive salience), and learning (predictive associatio
24 d signal enhancements for hedonic impact vs. incentive salience, and a faster firing pattern also dis
25 nisms related to hedonic evaluation of food, incentive salience, and control of motor feeding circuit
27 ng effects of drugs of abuse, development of incentive salience, and development of drug-seeking habi
28 gions associated with executive functioning, incentive salience, and interoceptive processing in ciga
31 e, there were sex differences on measures of incentive salience attribution and sensation-seeking beh
32 l relationships between multiple measures of incentive salience attribution and, based on these findi
34 ned approach behavior (to obtain an index of incentive salience attribution; 'sign-tracking'), and su
35 n recent research suggesting that changes in incentive salience can alter the perception of time, as
37 itization of a neural system that attributes incentive salience causes compulsive motivation or "want
38 provide clues to a longstanding puzzle: how incentive salience, classical conditioning, emotional ar
40 ability of reward cues to trigger "wanting" (incentive salience) for their associated rewards, indepe
41 different disorders of neural valuation and incentive salience formation, which helps bridge the gap
42 vlovian cues for rewards become endowed with incentive salience, guiding "wanting" to their learned r
43 o the dysregulation of functional domains of incentive salience/habits, negative emotional states, an
44 uture studies should investigate whether the incentive salience hypothesis allows for more accurate p
50 PE) models suggest a role of learning, while incentive salience (IS) models argue that the DA signal
52 ory, including motivation, prediction error, incentive salience, memory consolidation, and response o
53 ext, and also how reinforcement learning and incentive salience models may shed light on the disorder
54 e three factors, the factors corresponded to incentive salience, negative emotionality, and executive
55 be critical in the addiction cycle, namely, incentive salience, negative emotionality, and executive
56 rance in BD may be associated with increased incentive salience of cues and contribute mechanisticall
58 NAc) shell dopamine (DA) levels modulate the incentive salience of discriminative stimuli that predic
59 er of behavioral symptoms including enhanced incentive salience of drug-associated cues, but also a n
60 This increased affinity may potentiate the incentive salience of food cues and counteract the effec
63 bic dopamine (DA) system (which mediates the incentive salience of natural and artificial rewards) an
66 ulation of CeA magnifies and focuses learned incentive salience onto a specific reward cue (pavlovian
68 signals in shell to generate either positive incentive salience or negative fearful salience (valence
70 lthough previous work implicated the CeMA in incentive salience, our results isolate the investigatio
72 ated with arousing stimuli acquire increased incentive salience, processes mediated in part by the nu
73 pamine neurons are thought to convey a fast, incentive salience signal, faster than can be mediated b
75 hell DA levels, nor the resultant changes in incentive salience signaled by this structure, impact te
76 llidum neurons, and likewise, they increased incentive salience signals in firing to the reward-proxi
79 d can acquire motivational properties (i.e., incentive salience) that cause them to have a powerful i
80 ls of learning in the basal ganglia with the incentive salience theory in a single simple framework,
81 with proposed roles in reward prediction and incentive salience, these results indicate that rapid do
83 To this end, the propensity to attribute incentive salience to a food cue was first assessed in t
85 e individual variation in the attribution of incentive salience to both food- and social-related cues
88 ted, in part, to the propensity to attribute incentive salience to food cues, which, in turn, contrib
91 rain region where environmental cues acquire incentive salience to reinforce motivated behaviors.
92 uals who have a propensity to attribute high-incentive salience to reward cues also exhibit relativel
93 In addition, the propensity to attribute incentive salience to reward cues can predict the propen
94 ual variation in the propensity to attribute incentive salience to reward cues predicts variation in
95 traits, such as the propensity to attribute incentive salience to reward cues that is modeled in rat
96 ers (STs)] are especially prone to attribute incentive salience to reward cues, relative to others [g
97 [sign-trackers (STs)] are prone to attribute incentive salience to reward cues, which can manifest as
99 e release is critical for the attribution of incentive salience to reward cues.SIGNIFICANCE STATEMENT
100 individual differences in the attribution of incentive salience to reward predictive cues, that is, s
101 e for dopamine neurons in the attribution of incentive salience to reward-paired cues, and underscore
102 are the tendency of STs and GTs to attribute incentive salience to social reward cues as well as form
106 cious pleasure) and (3) motivation (implicit incentive salience 'wanting' and cognitive incentive goa
107 erdopaminergic mutant mice attribute greater incentive salience ("wanting") to a sweet reward in the
109 ectroencephalography, a recognized marker of incentive salience, was used to track motivated attentio