Member Bibliography/Bibliografía de Miembros
This page collects all the personal publications that CienciaPR members have uploaded to their profiles. You can also see all of the authors collected in these publications or all the keywords contained in these publications.
“Biological role of interleukin-1beta in defensive-aggressive behaviour.”, J Biol Regul Homeost Agents, vol. 25, no. 3, pp. 323-9, 2011.
, “Blood oxygen level-dependent signal responses in corticolimbic 'emotions' circuitry of lactating rats facing intruder threat to pups.”, Eur J Neurosci, vol. 30, no. 5, pp. 934-45, 2009.
, “BOLD signal response to cocaine varies with sexual receptivity in female rats.”, Neuroreport, vol. 22, no. 1, pp. 19-22, 2011.
“A bold view of the lactating brain: functional magnetic resonance imaging studies of suckling in awake dams.”, J Neuroendocrinol, vol. 23, no. 11, pp. 1009-19, 2011.
, “Central vasopressin V1a receptors modulate neural processing in mothers facing intruder threat to pups.”, Neuropharmacology, vol. 58, no. 1, pp. 107-16, 2010.
, “Cocaine alters GABA(B)-mediated G-protein activation in the ventral tegmental area of female rats: modulation by estrogen.”, Synapse, vol. 54, no. 1, pp. 30-6, 2004.
“Cocaine-induced metabolic activation in cortico-limbic circuitry is increased after exposure to the histone deacetylase inhibitor, sodium butyrate.”, Neurosci Lett, vol. 465, no. 3, pp. 267-71, 2009.
, “Development of cocaine sensitization before pregnancy affects subsequent maternal retrieval of pups and prefrontal cortical activity during nursing.”, Neuroscience, vol. 148, no. 2, pp. 400-12, 2007.
, “Effect of cocaine sensitization prior to pregnancy on maternal care and aggression in the rat.”, Psychopharmacology (Berl), vol. 209, no. 1, pp. 127-35, 2010.
, “Effects of cocaine on maternal behavior and neurochemistry.”, Curr Neuropharmacol, vol. 10, no. 1, pp. 53-63, 2012.
, “Estradiol: a key biological substrate mediating the response to cocaine in female rats.”, Horm Behav, vol. 58, no. 1, pp. 33-43, 2010.
“Estradiol: a key biological substrate mediating the response to cocaine in female rats.”, Hormones and behaviorHormones and behavior, vol. 58, no. 1. pp. 33-43, 2010.
, “Estrogen and opioids interact to modulate the locomotor response to cocaine in the female rat.”, Brain Res, vol. 943, no. 1, pp. 151-61, 2002.
“Estrogen influences cocaine-induced blood oxygen level-dependent signal changes in female rats.”, J Neurosci, vol. 25, no. 5, pp. 1132-6, 2005.
“Estrogen-dependent alterations in D2/D3-induced G protein activation in cocaine-sensitized female rats.”, J Neurochem, vol. 86, no. 2, pp. 405-12, 2003.
“Firing patterns of maternal rat prelimbic neurons during spontaneous contact with pups.”, Brain Res Bull, vol. 88, no. 5, pp. 534-42, 2012.
, “Functional magnetic resonance imaging in awake animals.”, Rev Neurosci, vol. 22, no. 6, pp. 665-74, 2011.
, “Functional magnetic resonance imaging in conscious animals: a new tool in behavioural neuroscience research.”, J Neuroendocrinol, vol. 18, no. 5, pp. 307-18, 2006.
, “Functional magnetic resonance imaging shows oxytocin activates brain regions associated with mother-pup bonding during suckling.”, J Neurosci, vol. 25, no. 50, pp. 11637-44, 2005.
, “Gestational valproate alters BOLD activation in response to complex social and primary sensory stimuli.”, PLoS One, vol. 7, no. 5, p. e37313, 2012.
, “Hemodynamic and metabolic changes induced by cocaine in anesthetized rat observed with multimodal functional MRI.”, Psychopharmacology (Berl), vol. 185, no. 4, pp. 479-86, 2006.
, “Imaging cocaine-induced changes in the mesocorticolimbic dopaminergic system of conscious rats.”, J Neurosci Methods, vol. 139, no. 2, pp. 167-76, 2004.
“Imaging the neural circuitry and chemical control of aggressive motivation.”, BMC Neurosci, vol. 9, p. 111, 2008.
, “Inactivation or inhibition of neuronal activity in the medial prefrontal cortex largely reduces pup retrieval and grouping in maternal rats.”, Brain Res, vol. 1325, pp. 77-88, 2010.
, “Increased BOLD activation to predator stressor in subiculum and midbrain of amphetamine-sensitized maternal rats.”, Brain Res, vol. 1382, pp. 118-27, 2011.
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