{"id":37,"date":"2021-05-11T14:52:45","date_gmt":"2021-05-11T18:52:45","guid":{"rendered":"http:\/\/pages.vassar.edu\/newmanlab\/?page_id=37"},"modified":"2022-01-09T20:55:57","modified_gmt":"2022-01-10T01:55:57","slug":"publications","status":"publish","type":"page","link":"https:\/\/pages.vassar.edu\/newmanlab\/publications\/","title":{"rendered":"Publications\/Posters"},"content":{"rendered":"

\u00a0Publications (Undergraduates<\/u>, (cited by)<\/em>):
\n<\/strong><\/p>\n

Scavuzzo, C.S., Newman, L.A.<\/strong>, Gold, P.E., & Korol, D.L. (2021). Time-dependent changes in hippocampal and striatal glycogen long after maze training in male rats. Neurobiology of Learning and Memory, 185: 107537. https:\/\/doi.org\/10.1016\/j.nlm.2021.107537<\/a>.<\/p>\n

Scavuzzo. C.S., Newman, L.A.<\/strong>, Gold, P.E., & Korol, D.L. (2021). Extracellular levels of glucose in the hippocampus and striatum during maze training for food or water reward in male rats. Behavioral Brain Research, 411: 113385. https:\/\/doi.org\/10.1016\/j.bbr.2021.113385<\/a>. (1)<\/em><\/p>\n

Gardner, R.S., Newman, L.A.<\/strong>, Mohler, E.G., Tunur, T., Gold, P.E., & Korol, D.L. (2020). Aging is not equal across memory systems. Neurobiology of Learning and Memory, 172: 107232. https:\/\/doi.org\/10.1016\/j.nlm.2020.107232<\/a>. (6)<\/em><\/p>\n

Newman, L.A.<\/strong>, Baraiolo, J<\/u>., Mokler, D.J., Rabinowitz, A.R<\/u>., Galler, J.R., & McGaughy, J. (2019). Prenatal protein malnutrition produces resistance to distraction similar to noradrenergic deafferentation of the prelimbic cortex in a sustained attention task. Frontiers in Neuroscience, 13: 123. https:\/\/doi.org\/10.3389\/fnins.2019.00123<\/a>. (3)<\/em><\/p>\n

Newman, L.A.<\/strong>, Scavuzzo, C.J., Gold, P.E., & Korol, D.L. (2017). Training-induced elevations in extracellular lactate in hippocampus and striatum: Dissociations by cognitive strategy and type of reward. Neurobiology of Learning and Memory, 137: 142-153. https:\/\/doi.org\/10.1016\/j.nlm.2016.12.001<\/a>. (15)<\/em><\/p>\n

Newman, L.A.<\/strong> & Gold, P.E. (2016). Attenuation in rats of impairments of memory by scopolamine, a muscarinic receptor antagonist, by mecamylamine, a nicotinic receptor antagonist. Psychopharmacology, 233(5): 925-932. https:\/\/doi.org\/10.1007\/s00213-015-4174-9. (21)<\/em><\/p>\n

Newman, L.A.,<\/strong> Creer, D.J.<\/u>, & McGaughy, J. (2015). Cognitive control and the anterior cingulate cortex: How conflicting stimuli affect attentional control in the rat. Journal of Physiology Paris, 109: 95-103. https:\/\/doi.org\/10.1016\/j.jphysparis.2014.06.004<\/a>. (23)<\/em><\/p>\n

Gold, P.E., Newman, L.A.<\/strong>, Scavuzzo, C.J., & Korol, D.L. (2013). Modulation of multiple memory systems: from neurotransmitters to metabolic substrates. Hippocampus, 23(11):1053-65. https:\/\/doi.org\/10.1002\/hipo.22182<\/a>. (36)<\/em><\/p>\n

Newman, L.A.<\/strong>, Korol, D.L., & Gold, P.E. (2011). Lactate produced by glycogenolysis in astrocytes regulates memory processing. PLoS ONE, 6(12): art. no. e28427. https:\/\/doi.org\/10.1371\/journal.pone.0028427<\/a>. (281)<\/em><\/p>\n

Newman, L.A.<\/strong> & McGaughy, J. (2011). Attentional effects of lesions to the anterior cingulate cortex: How prior reinforcement influences distractibility. Behavioral Neuroscience, 125(3): 360-371. https:\/\/doi.org\/10.1037\/a0023250<\/a>. (24)<\/em><\/p>\n

Newman, L.A.<\/strong> & McGaughy, J. (2011). Adolescent rats show cognitive rigidity in a test of attentional set shifting. Developmental Psychobiology, 53(4): 391-401. https:\/\/doi.org\/10.1002\/dev.20537. (52)<\/em><\/p>\n

Newman, L.A.<\/strong>, Darling, J.<\/u>, & McGaughy, J. (2008). Atomoxetine reverses attentional deficits produced by noradrenergic deafferentation of medial prefrontal cortex. Psychopharmacology (Berl), 200(1): 39-50. https:\/\/doi.org\/10.1007\/s00213-008-1097-8<\/a>. (92)<\/em><\/p>\n

Newman, L.A.<\/strong> & McGaughy, J. (2008). Cholinergic deafferentation of prefrontal cortex sensitivity to cross-modal distractors during a sustained attention task. The Journal of Neuroscience, 28(1): 2642-2650. https:\/\/doi.org\/10.1523\/JNEUROSCI.5112-07.2008. (55<\/em>)<\/em><\/p>\n

Newman, L.A.<\/strong> & Mair, R.G. (2007). Cholinergic modulation of visuospatial responding in central thalamus. European Journal of Neuroscience, 26(12): 3543-3552. https:\/\/doi.org\/10.1111\/j.1460-9568.2007.05961.x<\/a>. (12)<\/em><\/p>\n

Newman, L.A.<\/strong> & Burk, J.A. (2005). Effects of excitotoxic thalamic intralaminar nuclei lesions on attention and working memory. Behavioural Brain Research, 162: 264-271. https:\/\/doi.org\/10.1016\/j.bbr.2005.03.018<\/a>. (17)<\/em><\/p>\n

Posters:<\/strong><\/p>\n

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Lin, J.\u00a0 & Newman, L.A. Activating Astrocytes with Chemogenetics Accentuates their Complex Role in Spatial Working Memory. 2021 URSI Symposium. Vassar College.\u00a0Poster PDF<\/a>.\u00a0Audio.<\/a><\/p>\n<\/div>\n<\/div>\n<\/div>\n

Liu, H., Mun, D.\u00a0 & Newman, L.A. Imaging Astrocytes During Working Memory Using Miniscopes. 2021 URSI Symposium. Vassar College.\u00a0\u00a0Poster PDF.\u00a0<\/a>Audio.<\/a><\/p>\n

\n
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Rattray, K. & Newman, L.A.\u00a0May We Have Your Attention: Sustained Attention Shows Brain Region Specific Increased Astrocytic Glutamate Recycling. 2021 URSI Symposium. Vassar College.\u00a0<\/span>Poster PDF.\u00a0<\/a>Audio.<\/a><\/p>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

\u00a0Publications (Undergraduates, (cited by)): Scavuzzo, C.S., Newman, L.A., Gold, P.E., & Korol, D.L. (2021). Time-dependent changes in hippocampal and striatal glycogen long after maze training in male rats. Neurobiology of Learning and Memory, 185: 107537. https:\/\/doi.org\/10.1016\/j.nlm.2021.107537. Scavuzzo. C.S., Newman, L.A., Gold, P.E., & Korol, D.L. (2021). Extracellular levels of glucose in the hippocampus and striatum … <\/p>\n

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