| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Francesca Morello, Asheeta A Prasad, Kati Rehberg, Renata Vieira de Sá, Noelia Antón-Bolaños, Eduardo Leyva-Diaz, Youri Adolfs, Fadel Tissir, Guillermina López-Bendito, R Jeroen Pasterkam. Frizzled3 Controls Axonal Polarity and Intermediate Target Entry during Striatal Pathway Development. The Journal of neuroscience : the official journal of the Society for Neuroscience. vol 35. issue 42. 2016-01-25. PMID:26490861. |
the striatum is a large brain nucleus with an important role in the control of movement and emotions. |
2016-01-25 |
2023-08-13 |
mouse |
| Virginia E Sturm, Jennifer S Yokoyama, Janet A Eckart, Jessica Zakrzewski, Howard J Rosen, Bruce L Miller, William W Seeley, Robert W Levenso. Damage to left frontal regulatory circuits produces greater positive emotional reactivity in frontotemporal dementia. Cortex; a journal devoted to the study of the nervous system and behavior. vol 64. 2015-12-02. PMID:25461707. |
whole-brain voxel-based morphometry (vbm) analyses revealed that atrophy in predominantly left hemisphere fronto-striatal emotion regulation systems including left ventrolateral prefrontal cortex, orbitofrontal cortex, anterior insula, and striatum was associated with greater happiness facial behavior during the film (pfwe < .05). |
2015-12-02 |
2023-08-13 |
human |
| Virginie Sterpenich, Sophie Schwartz, Pierre Maquet, Martin Desseille. Ability to maintain internal arousal and motivation modulates brain responses to emotions. PloS one. vol 9. issue 12. 2015-09-21. PMID:25438046. |
these results suggest that low ps may involve an imbalance in processing distinct emotional inputs, with greater reactivity to aversive information in regions involved in avoidance behaviour (amygdala, ofc) and dampened response to positive and neutral stimuli across circuits subserving motivated behaviour (striatum, hippocampus, amygdala). |
2015-09-21 |
2023-08-13 |
human |
| Sebastian Jongen, Nikolai Axmacher, Nico A W Kremers, Holger Hoffmann, Kerstin Limbrecht-Ecklundt, Harald C Traue, Henrik Kessle. An investigation of facial emotion recognition impairments in alexithymia and its neural correlates. Behavioural brain research. vol 271. 2015-08-06. PMID:24928767. |
lda subjects had significantly better emotion recognition scores and showed relatively more activity in several brain areas associated with alexithymia and emotional awareness (anterior cingulate cortex), and the extended system of facial perception concerned with aspects of social communication and emotion (amygdala, insula, striatum). |
2015-08-06 |
2023-08-13 |
human |
| Young Lee, Hojin Lee, Hyung-Wook Kim, Bong-June Yoo. Altered trafficking of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-type glutamate receptors (AMPARs) in the striatum leads to behavioral changes in emotional responses. Neuroscience letters. vol 584. 2015-06-23. PMID:25459286. |
altered trafficking of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-type glutamate receptors (ampars) in the striatum leads to behavioral changes in emotional responses. |
2015-06-23 |
2023-08-13 |
Not clear |
| Young Lee, Hojin Lee, Hyung-Wook Kim, Bong-June Yoo. Altered trafficking of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-type glutamate receptors (AMPARs) in the striatum leads to behavioral changes in emotional responses. Neuroscience letters. vol 584. 2015-06-23. PMID:25459286. |
however, whether the striatum is involved in the alteration of behavior in the presence of emotional challenges is unknown. |
2015-06-23 |
2023-08-13 |
Not clear |
| Young Lee, Hojin Lee, Hyung-Wook Kim, Bong-June Yoo. Altered trafficking of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-type glutamate receptors (AMPARs) in the striatum leads to behavioral changes in emotional responses. Neuroscience letters. vol 584. 2015-06-23. PMID:25459286. |
these data suggest that excitatory connections within the dorsomedial striatum play important roles in the control of motor actions in the presence of emotional challenges. |
2015-06-23 |
2023-08-13 |
Not clear |
| Björn Reinius, Martina Blunder, Frances M Brett, Anders Eriksson, Kalicharan Patra, Jörgen Jonsson, Elena Jazin, Klas Kullande. Conditional targeting of medium spiny neurons in the striatal matrix. Frontiers in behavioral neuroscience. vol 9. 2015-04-14. PMID:25870547. |
the striatum serves as the main input to the basal ganglia, and is key for the regulation of motor behaviors, compulsion, addiction, and various cognitive and emotional states. |
2015-04-14 |
2023-08-13 |
mouse |
| Stefan Koelsch, Stavros Skoura. Functional centrality of amygdala, striatum and hypothalamus in a "small-world" network underlying joy: an fMRI study with music. Human brain mapping. vol 35. issue 7. 2015-01-22. PMID:25050430. |
the striatum was functionally connected during joy with the lb, as well as with premotor cortex, areas 1 and 7a, hippocampus, insula and cingulate cortex, showing that sensorimotor, attentional, and emotional processes converge in the striatum during music perception. |
2015-01-22 |
2023-08-13 |
Not clear |
| Eric M Miller, Maya U Shankar, Brian Knutson, Samuel M McClur. Dissociating motivation from reward in human striatal activity. Journal of cognitive neuroscience. vol 26. issue 5. 2014-12-03. PMID:24345173. |
as a result, it is common across a number of neuroscientific subdiscliplines to associate activation in the striatum with anticipation of a rewarding outcome or a positive emotional state. |
2014-12-03 |
2023-08-12 |
human |
| Chris Vriend, Pieter Raijmakers, Dick J Veltman, Karin D van Dijk, Ysbrand D van der Werf, Elisabeth M J Foncke, Jan H Smit, Henk W Berendse, Odile A van den Heuve. Depressive symptoms in Parkinson's disease are related to reduced [123I]FP-CIT binding in the caudate nucleus. Journal of neurology, neurosurgery, and psychiatry. vol 85. issue 2. 2014-03-24. PMID:23813742. |
segregated areas of the striatum are crucially involved in various parallelly arranged cortical-striatal-thalamocortical circuits and serve functions in, among others, motor control or emotion. |
2014-03-24 |
2023-08-12 |
Not clear |
| Lingtao Kong, Kaiyuan Chen, Fay Womer, Wenyan Jiang, Xingguang Luo, Naomi Driesen, Jie Liu, Hilary Blumberg, Yanqing Tang, Ke Xu, Fei Wan. Sex differences of gray matter morphology in cortico-limbic-striatal neural system in major depressive disorder. Journal of psychiatric research. vol 47. issue 6. 2014-01-21. PMID:23453566. |
the cortico-limbic-striatal neural system, including the prefrontal cortex, amygdala, hippocampus, and striatum, have shown sexually dimorphic morphological features and have been implicated in the dysfunctional regulation of mood and emotion in mdd. |
2014-01-21 |
2023-08-12 |
human |
| Glenn R Fox, Mona Sobhani, Lisa Aziz-Zade. Witnessing hateful people in pain modulates brain activity in regions associated with physical pain and reward. Frontiers in psychology. vol 4. 2013-10-29. PMID:24167496. |
the results showed that, compared with viewing liked people, viewing hateful people in pain elicited increased responses in regions associated with observation of physical pain (the insular cortex, the anterior cingulate cortex (acc), and the somatosensory cortex), reward processing (the striatum), and frontal regions associated with emotion regulation. |
2013-10-29 |
2023-08-12 |
human |
| Peter Sokol-Hessner, Colin F Camerer, Elizabeth A Phelp. Emotion regulation reduces loss aversion and decreases amygdala responses to losses. Social cognitive and affective neuroscience. vol 8. issue 3. 2013-09-10. PMID:22275168. |
emotion regulation strategies can alter behavioral and physiological responses to emotional stimuli and the neural correlates of those responses in regions such as the amygdala or striatum. |
2013-09-10 |
2023-08-12 |
Not clear |
| Iris Trinkler, Laurent Cleret de Langavant, Anne-Catherine Bachoud-Lév. Joint recognition-expression impairment of facial emotions in Huntington's disease despite intact understanding of feelings. Cortex; a journal devoted to the study of the nervous system and behavior. vol 49. issue 2. 2013-08-12. PMID:22244587. |
because similar emotion recognition-expression deficits are also found in parkinson's disease and vascular lesions of the striatum, our results further confirm the importance of the striatum for emotion recognition and expression, while access to the meaning of feelings relies on a different brain network, and is spared in hd. |
2013-08-12 |
2023-08-12 |
human |
| Imre Szirma. [Pulvinar]. Neuropsychopharmacologia Hungarica : a Magyar Pszichofarmakologiai Egyesulet lapja = official journal of the Hungarian Association of Psychopharmacology. vol 15. issue 1. 2013-07-03. PMID:23542756. |
we presume that the pulvinar is part of a closed cortico-subcortical circuit, analogous with the striatum, but the output of the pulvinar initiates complex behavioral reactions, including perception, selective attention and emotions. |
2013-07-03 |
2023-08-12 |
human |
| Roberto A Prada-Alcala, Andrea C Medina, Norma Serafin Lopez, Gina L Quirart. Intense emotional experiences and enhanced training prevent memory loss induced by post-training amnesic treatments administered to the striatum, amygdala, hippocampus or substantia nigra. Reviews in the neurosciences. vol 23. issue 5-6. 2013-06-18. PMID:23023883. |
intense emotional experiences and enhanced training prevent memory loss induced by post-training amnesic treatments administered to the striatum, amygdala, hippocampus or substantia nigra. |
2013-06-18 |
2023-08-12 |
Not clear |
| S Shaun Ho, Richard D Gonzalez, James L Abelson, Israel Liberzo. Neurocircuits underlying cognition-emotion interaction in a social decision making context. NeuroImage. vol 63. issue 2. 2013-04-18. PMID:22813951. |
while the literature suggests that the ventromedial prefrontal cortex (vmpfc), striatum, and amygdala are involved in valuation-based dm and hippocampus in context processing, how these neural mechanisms subserve the integration of cognitive and emotional values in a social context remains unclear. |
2013-04-18 |
2023-08-12 |
human |
| Maria Teresa Tebano, Alberto Martire, Patrizia Popol. Adenosine A(2A)-cannabinoid CB(1) receptor interaction: an integrative mechanism in striatal glutamatergic neurotransmission. Brain research. vol 1476. 2013-03-08. PMID:22565012. |
the striatum is a subcortical area involved in sensorimotor, cognitive and emotional processes. |
2013-03-08 |
2023-08-12 |
Not clear |
| Aaron J Gruber, Robert J McDonal. Context, emotion, and the strategic pursuit of goals: interactions among multiple brain systems controlling motivated behavior. Frontiers in behavioral neuroscience. vol 6. 2012-10-02. PMID:22876225. |
rather, this emotional system suppresses or invigorates actions that are selected through competition between goal-directed control involving dorsomedial striatum (dms) and habitual control involving dorsolateral striatum (dls). |
2012-10-02 |
2023-08-12 |
Not clear |