Correction: McMurray et al., Brain Stimulation Reward Supports More Consistent and Accurate Rodent Decision-Making than Food Reward (eNeuro March/April 2017, 4(2) e0015-17.2017 1-13 http://dx.doi.org/10.1523/ENEURO.0015-17.2017)
نویسندگان
چکیده
In the article “Brain Stimulation Reward Supports More Consistent and Accurate Rodent Decision-Making than Food Reward,” by Matthew S. McMurray, Sineadh M. Conway, and Jamie D. Roitman, which appeared on e0015-17.2017 of the April 18, 2017, issue, there was a mislabeled axis on Figure 3D, which led to an inaccuracy in the figure caption and statistical table (Table 1). The y-axis of this figure was mistakenly labeled “Preference for Larger Reward” but should have been labeled “Number of Trials Completed.” This error propagated to the figure caption and statistical table but does not affect any of the conclusions or interpretations in our article. Figure 3 and associated caption and statistical Table 1 have been corrected on the online PDF version and are displayed below.
منابع مشابه
Brain Stimulation Reward Supports More Consistent and Accurate Rodent Decision-Making than Food Reward
Animal models of decision-making rely on an animal's motivation to decide and its ability to detect differences among various alternatives. Food reinforcement, although commonly used, is associated with problematic confounds, especially satiety. Here, we examined the use of brain stimulation reward (BSR) as an alternative reinforcer in rodent models of decision-making and compared it with the e...
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The mediodorsal nucleus (MD) interacts with medial prefrontal cortex (mPFC) to support learning and adaptive decision-making. MD receives driver (layer 5) and modulatory (layer 6) projections from PFC and is the main source of driver thalamic projections to middle cortical layers of PFC. Little is known about the activity of MD neurons and their influence on PFC during decision-making. We recor...
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Correction: Hoops et al., Dopamine Development in the Mouse Orbital Prefrontal Cortex is Protracted and Sensitive to Amphetamine in Adolescence (eNeuro January/ February 2018, 5(1) e0372-17.2017 1-9 https://doi.org/10.1523/ENEURO.0372-17.2017 In the article “Dopamine Development in the Mouse Orbital Prefrontal Cortex is Protracted and Sensitive to Amphetamine in Adolescence” by Daniel Hoops, La...
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متن کاملTranscranial Alternating Current Stimulation Modulates Risky Decision Making in a Frequency-Controlled Experiment
In this study, we investigated the effect of transcranial alternating current stimulation (tACS) on voluntary risky decision making and executive control in humans. Stimulation was delivered online at 5 Hz (θ), 10 Hz (α), 20 Hz (β), and 40 Hz (γ) on the left and right frontal area while participants performed a modified risky decision-making task. This task allowed participants to voluntarily s...
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عنوان ژورنال:
دوره 4 شماره
صفحات -
تاریخ انتشار 2017