Juan A. Salinas scite author profile

Iron deficiency (ID) is a common nutrient deficiency worldwide. This condition is linked to changes in myelin formation, dopaminergic function, and energy metabolism. Early ID results in persistent long-term cognitive and behavioral disturbances in children, despite a return to normal iron status. The present study assesses formerly ID adult rats on maze learning tasks that depend on specific brain regions related to learning, specifically the hippocampus, striatum, and amygdala. Rat dams were fed ID chow starting on gestational Day 2 through postnatal Day 7, and behavioral testing began at postnatal Day 65--following a return to normal iron status. Formerly ID rats exhibited delayed acquisition of the hippocampus-dependant task and no differences from controls on the striatum- and amygdala-dependent tasks. These findings likely reflect long-term reduction in but not abolition of hippocampus-dependent learning and preserved function in other brain structures (e.g., striatum and amygdala).

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Activation of the opioid and nonopioid hypoalgesic systems at the level of the brainstem and spinal cord: Does a coulometric relation predict the emergence or form of environmentally induced hypoalgesia?

Meagher¹,

Chen²,

Salinas³

et al. 1993

Behavioral Neuroscience

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Prior research suggests that a coulometric relation (Intensity x Duration) determines whether an opioid or nonopioid hypoalgesic system is activated by afferent nociceptive information. Using a paradigm that generates a brainstem-mediated hypoalgesia on the tail-flick test, we found that a coulometric relation does not predict either the emergence or the form of shock-induced hypoalgesia in decerebrate rats. In fact, no evidence was obtained that the brainstem's opioid hypoalgesic system can be activated by ascending neurons. More severe shocks elicited hypoalgesia in spinalized rats. Although a coulometric relation did not predict the emergence of hypoalgesia in spinalized rats, shock severity did predict the form of the hypoalgesia; the least severe shocks elicited an opioid hypoalgesia, and the more severe shocks generated a nonopioid hypoalgesia. A similar pattern of data was observed in intact rats exposed to the least severe shock parameters.

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A neural network underlying individual differences in emotion and aggression in male golden hamsters

David¹,

Cervantes²,

Trosky³

et al. 2004

Neuroscience

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Posttraining Intraamygdala Infusions of Oxotremorine and Propranolol Modulate Storage of Memory for Reductions in Reward Magnitude

Salinas

Introini-Collison

Dalmaz

et al. 1997

Neurobiology of Learning and Memory

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Amygdala modulates memory for changes in reward magnitude: Reversible post-training inactivation with lidocaine attenuates the response to a reduction in reward

Salinas

Packard

McGaugh

1993

Behavioural Brain Research

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Juan A. Salinas

Dissociating the long-term effects of fetal/neonatal iron deficiency on three types of learning in the rat.

Activation of the opioid and nonopioid hypoalgesic systems at the level of the brainstem and spinal cord: Does a coulometric relation predict the emergence or form of environmentally induced hypoalgesia?

A neural network underlying individual differences in emotion and aggression in male golden hamsters

Posttraining Intraamygdala Infusions of Oxotremorine and Propranolol Modulate Storage of Memory for Reductions in Reward Magnitude

Amygdala modulates memory for changes in reward magnitude: Reversible post-training inactivation with lidocaine attenuates the response to a reduction in reward

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