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Publications
Resulting from Research at LCNI
Journal Articles/Book Chapters
Abdullaev, Y., Posner, M.I., Nunnally,
R. & Dishion, T. (2010). Functional MRI evidence for
inefficient attentional control in adolescent chronic cannabis
abusers. Behavioural Brain Research, 215, 45-57.
Arbib, M.A., Bonaiuto, J.B., Jacobs, S.,
& Frey, S.H. (2009). Tool use and the distalization
of the end-effector. Psychological Research, 73, 441-462.
Bohon, C., Stice, E. (2011). Reward Abnormalities
among Women with Full and Subthreshold Bulimia Nervosa:
A Functional Magnetic Resonance Imaging Study. International
Journal of Eating Disorders, 44(7), 585-595.
Bohon, C., Stice, E., Spoor, S. (2009).
Female emotional eaters show abnormalities in consummatory
and anticipatory food reward: A functional magnetic resonance
imaging study. International Journal of Eating Disorders,
42, 210-221.
Burger, K., Stice, E. (2012). Frequent
ice cream consumption is associated with reduced striatal
response to receipt of an ice cream-based milkshake. American
Journal of Clincial Nutrition. 95(4), 810-817.
Chaminade, T., Meltzoff, A.N., & Decety,
Jean. (2005). An fMRI study of imitation: Action representation
and body schema. Neuropsychologia, 43, 115-127.
Cheng, Y., Meltzoff, A.N., & Decety,
J. (2007). Motivation modulates the activity of the human
mirror-neuron system. Cerebral Cortex, 17(8), 1979-1986.
Decety, J., Jackson, P.L., Sommerville,
J.A., Chaminade, T., & Meltzoff, A.N. (2004). The neural
bases of cooperation and competition: An fMRI investigation.
NeuroImage, 23, 744-751.
Drew, A.S., & van Donkelaar, P. (2007).
The contribution of the human FEF and SEF to smooth pursuit
initiation. Cerebral Cortex. 17(11), 2618-2624.
Ester, E. F., Serences, J., & Awh,
E. (2009). Spatially global representations in human primary
visual cortex during working memory maintenance. Journal
of Neuroscience, 29(48), 15258-15265.
Fisher, P. A., Bruce, J., Abdullaev, Y.,
Mannering, A. M., & Pears, K. C. (2011). The effects
of early adversity on the development of inhibitory control
and the role of parental involvement in the prevention of
adverse outcomes. In M. T. Bardo, D. H. Fishbein, &
R. Milich (Eds.), Inhibitory control and abuse prevention:
From research to translation.
Frey, S.H. (2007). Neurological specialization
for manual gesture and tool use in humans. In J.H. Kaas
(Ed.), Evolution of nervous systems. New York: Elsevier.
Frey, S.H. (2007). What puts the how
in where: Semantic and sensori-motor bases of everyday tool
use. Cortex, 43, 368-375.
Frey, S.H., & Gerry, V.E. (2006).
Modulation of neural activity during observational learning
of actions and their sequential orders. Journal of Neuroscience,
26(50), 13194-13201.
Frey, S.H., Bogdanov, S.B., Smith, J.C.,
Watrous, S., & Breidenbach, W.C. (2008). Chronically
deafferented sensory cortex recovers a grossly typical organization
after allogenic hand transplantation. Current Biology, 18,
1530-1534.
Harbaugh, W.T., Mayr, U., & Burghart,
D.R. (2007). Neural responses to taxation and voluntary
giving reveal motives for charitable donations. Science,
316 (5831), 1622-1625.
Jackson, P.L., Brunet, E., Meltzoff, A.N.,
& Decety, J. (2006). Empathy examined through the neural
mechanisms involved in imagining how I feel versus how you
feel pain: An event-related fMRI study. Neuropsychologia,
44, 752-761.
Jackson, P.L., Meltzoff, A.N., & Decety,
J. (2006). Neural circuits involved in imitation and perspective-taking.
NeuroImage, 31, 429-439.
Jackson, P.L., Meltzoff, A.N., &
Decety, J. (2005). How do we perceive the pain of others:
A window into the neural processes involved in empathy.
NeuroImage, 24, 771-779.
Jacobs, S., Danielmeier, C., & Frey,
S.H. (2010). Human anterior intraparietal and ventral premotor
cortices support representations of grasping with the hand
or a novel tool. Journal of Cognitive Neuroscience, 22(11),
2594-608.
Johnson-Frey, S.H., Newman-Norlund, R.N.,
& Grafton, S.T. (2005). A distributed left hemisphere
network active during planning of everyday tool use skills.
Cerebral Cortex, 15(6), 681-695.
Johnson-Frey, S.H., Vinton, D., Newman-Norlund,
R., & Grafton. S.T. (2005). Cortical topography of human
anterior intraparietal area. Cognitive Brain Research. 23,
397-405.
Kroliczak, G., & Frey, S. H. (2009).
A common network in the left cerebral hemisphere represents
planning of tool use pantomimes and familiar intransitive
gestures at the hand-independent level. Cerebral Cortex,
19(10), 2396-2410.
Lamm, C., & Decety, J. (2008). Is
the extrastriate body area (EBA) sensitive to the perception
of pain in others? Cerebral Cortex, 18(10), 2369-2373.
Lamm, C., Nusbaum, H., Meltzoff, A.N.,
& Decety, J. (2007). What are you feeling? Using functional
magnetic resonance imaging to assess the modulation of sensory
and affective responses during empathy for pain. Public
Library of Science ONE, 12, e1292.
Langan, J., & van Donkelaar, P. (2008).
The influence of hand dominance on the response to a constraint-induced
therapy program following stroke. Neurorehabilitation and
Neural Repair, 22(3), 298-304.
Laurent, H., Stevens, A., Ablow, J. (2011).
Neural correlates of hypothalamic-pituitary-adrenal regulation
of mothers with their infants. Biological Psychiatry, 70(9),
826-832.
Laurent, H., Ablow, J. (2012). A cry in
the dark: depressed mothers show reduced neural activation
to their own infant’s cry. Social Cognitive and Affective
Neuroscience, 7(2), 125-134.
Macuga, K.L., & Frey, S.H. (2012).
Neural representations involved in observed, imagined, and
imitated actions are dissociable and hierarchically organized.
NeuroImage, 59, 2798-2807.
Macuga, K.L., & Frey, S.H. (2011).
Selective responses in right inferior frontal and supramarginal
gyri differentiate between observed movements of oneself
vs. another. Neuropsychologia, 49, 1202-1207.
Newman-Norlund, R., Frey, S.H., Petitto,
L-A., & Grafton, S.T. (2006). Anatomic distinctions
between visual and auditory second language acquisition.
Journal of Cognitive Neuroscience, 18, 1984-1997.
Ng, J., Stice E., Yokum S., et al. (2011).
An fMRI study of obesity, food reward, and perceived caloric
density. Does a low-fat label make food less appealing?
Appetite, 57(1), 65-72.
Philip, B. A., & Frey, S. H. (2011).
Preserved grip selection planning in chronic unilateral
upper extremity amputees. Experimental Brain Research, 214(3)
437-452.
Posner, M.I., Sheese, B.E., Odluda, Y.,
& Tang, Y.Y. (2006). Analyzing and shaping human attentional
networks. Neural Networks, 19(9), 1422-1429.
Serences, J., Ester, E., Vogel, E.K.,
& Awh, E. (2009). Stimulus-specific delay activity in
human primary visual cortex. Psychological Science, 20(2),
207-214.
Stice, E., Spoor, S.T.P., Bohon, C., &
Small, D.M. (2008). Relation between obesity and blunted
striatal response to food is moderated by TaqlA1 DRD2 Gene.
Science, 322, 449-452.
Stice, E., Spoor, S.T.P., Bohon, C., Veldhuizen,
M., & Small, D.M. (2008). Relation of reward from food
intake and anticipated intake to obesity: A functional magnetic
resonance imaging study. Journal of Abnormal Psychology,
117, 924-935.
Stice, E., Spoor, S., Ng, J., & Zald,
D. (2009). Relation of obesity to consummatory and anticipatory
food reward. Physiology and Behavior, 97, 551-560.
Stice, E., Yokum, S., Bohon, C., Marti,
N, & Smolen, A. (2010). Reward circuitry responsivity
to food predicts future increases in body mass: Moderating
effects of DRD2 and DRD4. NeuroImage, 50(4), 1618-25.
Tang, Y., Lu, Q., Geng, X., Stein, E.A.,
Yang, Y., & Posner, M.I. (2010). Short term mental training
induces white-matter changes in the anterior cingulate.
Proceedings of the National Academy of Sciences, 107, 16649-16652.
Tunik E., Frey, S.H., & Grafton, S.T.
(2005). Virtual lesions of the anterior intraparietal area
disrupt goal-dependent on-line adjustments of grasp. Nature
Neuroscience, 8, 505-511.
van Donkelaar, P., Lin, Y., & Hewlett,
D. (2009). The human frontal oculomotor cortical areas contribute
asymmetrically to motor planning in a gap saccade task.
Public Library of Science ONE, 4, e7278.
Walter, E., & Dassonville, P. (2008).
Visuospatial contextual processing in the parietal cortex:
An fMRI investigation of the induced Roelofs effect. NeuroImage,
42, 1686-1697.
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