Connor D. O'Rear scite author profile

Human drug addiction is a complex disorder, in which exogenous substances are able to recruit and maintain behaviors involved in drug taking. Many drugs that are addictive in humans are able to act on natural brain systems for learning and memory, and while many memory systems may be affected by addictive drugs, work with operant tasks has shown that addictive drugs (e.g. cocaine and alcohol) are particularly effective in recruiting habit learning systems, compared to natural rewards. It is currently unknown if the ability of addictive drugs to facilitate habit learning depends on a direct action on habit learning systems in the brain, versus the rewarding properties of drug administration. To differentiate between these options, rats were trained to perform two actions (lever pressing), each of which was rewarded with a different natural reward. After acquiring the behavior, rats received three training sessions which were followed by post-training injections of saline or cocaine (5 or 10 mg/kg, i.p.). Using sensory-specific satiety, extinction tests revealed that lever pressing for actions which were paired with saline were sensitive to devaluation (typical of goal-directed behaviors) while actions which were paired with cocaine were not sensitive to devaluation (typical of habitual behaviors). Lesions of the infralimbic or dorsolateral striatum were able to block the action of post-training cocaine injections. These data indicate that, within individual rats, cocaine injections facilitate the transition of behavior to habitual control for actions that have been recently performed, without a general facilitation of habit learning, and that this action of cocaine requires brain areas that are critical for learning natural habits.

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Partial knowledge in the development of number word understanding

O'Rear

McNeil

Kirkland

2020

Developmental Science

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Imagine a group of children instructed to retrieve three checkers from a box. All children pick out exactly three red checkers. Success! Next, the children are asked for four black checkers. Some select four, some select three, and some grab a handful. Those who select four clearly understand more about 'four' than those who select three or a handful, but how does the knowledge of the latter two groups compare? Is it the same? Consider the children who incorrectly selected three black checkers after they had correctly selected three red checkers. Do they actually understand 'three?' This scenario parallels a widely used task for assessing children's understanding of number words: the giveN task (Wynn,

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Improved set‐size labeling mediates the effect of a counting intervention on children's understanding of cardinality

O'Rear

McNeil

2019

Developmental Science

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How does improving children's ability to label set sizes without counting affect the development of understanding of the cardinality principle? It may accelerate development by facilitating subsequent alignment and comparison of the cardinal label for a given set and the last word counted when counting that set (Mix et al., 2012).Alternatively, it may delay development by decreasing the need for a comprehensive abstract principle to understand and label exact numerosities (Piantadosi et al., 2012).In this study, preschoolers (N = 106, M age = 4;8) were randomly assigned to one of three conditions: (a) count-and-label, wherein children spent 6 weeks both counting and labeling sets arranged in canonical patterns like pips on a die; (b) label-first, wherein children spent the first 3 weeks learning to label the set sizes without counting before spending 3 weeks identical to the count-and-label condition; (c) print referencing control. Both counting conditions improved understanding of cardinality through increases in children's ability to label set sizes without counting. In addition to this indirect effect, there was a direct effect of the count-and-label condition on progress toward understanding of cardinality. Results highlight the roles of set labeling and equifinality in the development of children's understanding of number concepts. K E Y W O R D Scardinality, cognitive development, counting, early learning, preschool mathematics

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The Role of Non-Numerical Stimulus Features in Approximate Number System Training in Preschoolers from Low-Income Homes

Fuhs

McNeil

Kelley

et al. 2016

Journal of Cognition and Development

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Preferences for tactile and narrative counting books across parents with different education levels

Gaylord

O'Rear

Hornburg

et al. 2020

Early Childhood Research Quarterly

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Connor D. O'Rear

Post-training cocaine administration facilitates habit learning and requires the infralimbic cortex and dorsolateral striatum

Partial knowledge in the development of number word understanding

Improved set‐size labeling mediates the effect of a counting intervention on children's understanding of cardinality

The Role of Non-Numerical Stimulus Features in Approximate Number System Training in Preschoolers from Low-Income Homes

Preferences for tactile and narrative counting books across parents with different education levels

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