| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Michael S Fanselow, Ann N Hoffma. Fear, defense, and emotion: A neuroethological understanding of the negative valence research domain criteria. The American psychologist. 2024-05-02. PMID:38695781. |
we describe recent data that causally implicate human subjective emotional states with amygdala activity, which is also critical for defensive behavior. |
2024-05-02 |
2024-05-04 |
human |
| Ruitong Chu, Ye Lu, Xiaoyi Fan, Chengyuan Lai, Jian Li, Rui Yang, Zhenghua Xiang, Chaofeng Han, Mouli Tian, Hongbin Yua. Changes in SLITRK1 Level in the Amygdala Mediate Chronic Neuropathic Pain-Induced Anxio-Depressive Behaviors in Mice. Journal of integrative neuroscience. vol 23. issue 4. 2024-04-29. PMID:38682225. |
the slit and ntrk-like 1 (slitrk1) protein is important for synaptic remodeling and is highly expressed in the amygdala, an important brain region involved in various emotional behaviors. |
2024-04-29 |
2024-05-01 |
mouse |
| Yehong Fang, Yunkai Sun, Yi Liu, Tieqiao Liu, Wei Hao, Yanhui Lia. Neurobiological mechanisms and related clinical treatment of addiction: a review. Psychoradiology. vol 2. issue 4. 2024-04-26. PMID:38665277. |
the changes in the orbitofrontal cortex, dorsolateral prefrontal cortex, amygdala, and hypothalamus emotional system in the withdrawal/negative affect stage involve increases in negative emotional states, dysphoric-like effects, and stress-like responses. |
2024-04-26 |
2024-04-28 |
Not clear |
| Sagarika Jaiswal, Lakshman N C Chakravarthula, Srikanth Padmal. Additive Effects of Monetary Loss and Positive Emotion in the Human Brain. eNeuro. vol 11. issue 4. 2024-04-17. PMID:38565297. |
we found overlapping main effects of positive (vs neutral) emotion and loss (vs no loss) in multiple brain regions, including the ventromedial prefrontal cortex, striatum, and amygdala, notably with a lack of evidence for interaction. |
2024-04-17 |
2024-04-20 |
human |
| Yoann Stussi, David Sande. Computational Analysis, Appraised Concern-Relevance, and the Amygdala: The Algorithmic Value of Appraisal Processes in Emotion. Neuroscience and biobehavioral reviews. 2024-04-15. PMID:38621515. |
computational analysis, appraised concern-relevance, and the amygdala: the algorithmic value of appraisal processes in emotion. |
2024-04-15 |
2024-04-18 |
Not clear |
| Kevin Braunscheidel, Michael Okas, John J Woodwar. Toluene alters the intrinsic excitability and excitatory synaptic transmission of basolateral amygdala neurons. Frontiers in neuroscience. vol 18. 2024-04-10. PMID:38595974. |
in the present study, we extend these findings and examine the effect of toluene on electrophysiological responses of pyramidal neurons in the basolateral amygdala bla, a region important for generating emotional and reward based information needed to guide future behavior. |
2024-04-10 |
2024-04-12 |
Not clear |
| Izelle Labuschagne, Juan F Dominguez, Sally Grace, Simone Mizzi, Julie D Henry, Craig Peters, Christine A Rabinak, Erin Sinclair, Valentina Lorenzetti, Gill Terrett, Peter G Rendell, Mangor Pedersen, Darren R Hocking, Markus Heinrich. Specialization of amygdala subregions in emotion processing. Human brain mapping. vol 45. issue 5. 2024-04-09. PMID:38590248. |
however, recent research has failed to reveal specificity, with evidence that the amygdala also responds to other emotions. |
2024-04-09 |
2024-04-11 |
human |
| Izelle Labuschagne, Juan F Dominguez, Sally Grace, Simone Mizzi, Julie D Henry, Craig Peters, Christine A Rabinak, Erin Sinclair, Valentina Lorenzetti, Gill Terrett, Peter G Rendell, Mangor Pedersen, Darren R Hocking, Markus Heinrich. Specialization of amygdala subregions in emotion processing. Human brain mapping. vol 45. issue 5. 2024-04-09. PMID:38590248. |
a more nuanced understanding of the amygdala's role in emotion processing, particularly relating to fear, is needed given the importance of effective emotional functioning for everyday function and mental health. |
2024-04-09 |
2024-04-11 |
human |
| Izelle Labuschagne, Juan F Dominguez, Sally Grace, Simone Mizzi, Julie D Henry, Craig Peters, Christine A Rabinak, Erin Sinclair, Valentina Lorenzetti, Gill Terrett, Peter G Rendell, Mangor Pedersen, Darren R Hocking, Markus Heinrich. Specialization of amygdala subregions in emotion processing. Human brain mapping. vol 45. issue 5. 2024-04-09. PMID:38590248. |
we specifically examined the reactivity of four amygdala subregions (using regions of interest analysis) and related brain connectivity networks (using generalized psycho-physiological interaction) to fear, angry, and happy facial stimuli using an emotional face-matching task. |
2024-04-09 |
2024-04-11 |
human |
| Xinqi Su, Ruilin Fu, Huiling Li, Nan Jiang, Aqian Li, Jingyu Yang, Leilei Me. The Left Amygdala and Right Frontoparietal Cortex Support Emotional Adaptation Aftereffects. Brain sciences. vol 14. issue 3. 2024-03-28. PMID:38539645. |
the left amygdala and right frontoparietal cortex support emotional adaptation aftereffects. |
2024-03-28 |
2024-03-30 |
human |
| Yuyue Jian. A theory of the neural mechanisms underlying negative cognitive bias in major depression. Frontiers in psychiatry. vol 15. 2024-03-27. PMID:38532986. |
hypothesis 2 highlights the involvement of the ventromedial prefrontal cortex in the establishment of a negative cognitive framework through the generalization of conceptual and emotional information in conjunction with the amygdala and hippocampus. |
2024-03-27 |
2024-03-29 |
Not clear |
| Ke Bo, Thomas E Kraynak, Mijin Kwon, Michael Sun, Peter J Gianaros, Tor D Wage. A systems identification approach using Bayes factors to deconstruct the brain bases of emotion regulation. Nature neuroscience. 2024-03-23. PMID:38519748. |
analyses using bayes factors and an axiomatic systems identification approach identified four reappraisal-related components encompassing distributed neural activity patterns across two independent functional magnetic resonance imaging (fmri) studies (n = 182 and n = 176): (1) an anterior prefrontal system selectively involved in cognitive reappraisal; (2) a fronto-parietal-insular system engaged by both reappraisal and emotion generation, demonstrating a general role in appraisal; (3) a largely subcortical system activated during negative emotion generation but unaffected by reappraisal, including amygdala, hypothalamus and periaqueductal gray; and (4) a posterior cortical system of negative emotion-related regions downregulated by reappraisal. |
2024-03-23 |
2024-03-26 |
Not clear |
| An Ping, Jianbao Wang, Miguel Ángel García Cabezas, Lihui Li, Jianmin Zhang, Junming Zhu, Katalin M Gothard, Anna W Ro. Brainwide mesoscale functional networks revealed by focal infrared neural stimulation of the amygdala. bioRxiv : the preprint server for biology. 2024-03-11. PMID:38464165. |
the primate amygdala serves to evaluate emotional content of sensory inputs and modulate emotional and social behaviors; prefrontal, multisensory and autonomic aspects of these circuits are mediated predominantly via the basal (ba), lateral (la), and central (cea) nuclei, respectively. |
2024-03-11 |
2024-03-14 |
Not clear |
| Francesca Girelli, Maria Gloria Rossetti, Cinzia Perlini, Marcella Bellan. Neural correlates of cognitive behavioral therapy-based interventions for bipolar disorder: A scoping review. Journal of psychiatric research. vol 172. 2024-03-06. PMID:38447356. |
in two additional studies, a peculiar pattern of baseline activations in the prefrontal cortex, hippocampus, amygdala, and insula predicted post-treatment improvements in depressive symptoms, emotion dysregulation, and psychosocial functioning, although cbt-specific effects were not shown. |
2024-03-06 |
2024-03-09 |
Not clear |
| Moritz Haaf, Nenad Polomac, Ana Starcevic, Marvin Lack, Stefanie Kellner, Anna-Lena Dohrmann, Ulrike Fuger, Saskia Steinmann, Jonas Rauh, Guido Nolte, Christoph Mulert, Gregor Leich. Frontal theta oscillations during emotion regulation in people with borderline personality disorder. BJPsych open. vol 10. issue 2. 2024-03-04. PMID:38433600. |
emotion regulation has been linked to a frontolimbic network comprising the dorsolateral prefrontal cortex and the amygdala, which apparently synchronises its activity via oscillatory coupling in the theta frequency range. |
2024-03-04 |
2024-03-06 |
Not clear |
| Kensaku Mori, Hitoshi Sakan. Circuit formation and sensory perception in the mouse olfactory system. Frontiers in neural circuits. vol 18. 2024-03-04. PMID:38434487. |
external odor information represented as an odor map in the ob is transmitted to the olfactory cortex (oc) and amygdala for decision making to elicit emotional and behavioral outputs using two distinct neural pathways, innate and learned. |
2024-03-04 |
2024-03-06 |
mouse |
| Xuru Wang, Tianze Liu, Xinhong Jin, Chenglin Zho. Aerobic exercise promotes emotion regulation: a narrative review. Experimental brain research. 2024-02-24. PMID:38400992. |
these effects are generated via increased prefrontal cortex activation, the strengthening of functional connections between the amygdala and several other brain regions, and the enhancement of the plasticity of key emotion regulation pathways and nodes, such as the uncinate fasciculus. |
2024-02-24 |
2024-02-27 |
Not clear |
| Anna C Cichocki, Richard E Zinbarg, Michelle G Craske, Iris K-Y Chat, Katherine S Young, Susan Y Bookheimer, Robin Nussloc. Transdiagnostic symptom of depression and anxiety associated with reduced gray matter volume in prefrontal cortex. Psychiatry research. Neuroimaging. vol 339. 2024-02-15. PMID:38359709. |
using structural mri, gray matter volumes were extracted for emotion generation (amygdala, nucleus accumbens) and regulation (orbitofrontal, ventrolateral, and dorsolateral prefrontal cortex) regions, often implicated in depression and anxiety. |
2024-02-15 |
2024-02-18 |
Not clear |
| E Kale Edmiston, Henry W Chase, Neil Jones, Tiffany J Nhan, Mary L Phillips, Jay C Fournie. Differential Role of Fusiform Gyrus Coupling in Depressive and Anxiety Symptoms During Emotion Perception. Social cognitive and affective neuroscience. 2024-02-09. PMID:38334745. |
given emotional alterations in internalizing disorders, we hypothesized that function of regions associated with emotion processing/regulation, including the anterior cingulate cortex(acc), amygdala, and fusiform gyrus(fg), would differentiate these symptoms. |
2024-02-09 |
2024-02-11 |
Not clear |
| Youqing Cai, Jianlong Ge, Zhizhong Z Pa. The projection from dorsal medial prefrontal cortex to basolateral amygdala promotes behaviors of negative emotion in rats. Frontiers in neuroscience. vol 18. 2024-02-08. PMID:38327845. |
brain circuits between medial prefrontal cortex (mpfc) and amygdala have been implicated in cortical control of emotion, especially anxiety. |
2024-02-08 |
2024-02-10 |
rat |