| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| P Y Geha, M N Baliki, D R Chialvo, R N Harden, J A Paice, A V Apkaria. Brain activity for spontaneous pain of postherpetic neuralgia and its modulation by lidocaine patch therapy. Pain. vol 128. issue 1-2. 2007-03-19. PMID:17067740. |
overall brain activity for spontaneous pain of phn involved affective and sensory-discriminative areas: thalamus, primary and secondary somatosensory, insula and anterior cingulate cortices, as well as areas involved in emotion, hedonics, reward, and punishment: ventral striatum, amygdala, orbital frontal cortex, and ventral tegmental area. |
2007-03-19 |
2023-08-12 |
Not clear |
| Katrina Carlsson, Jesper Andersson, Predrag Petrovic, Karl Magnus Petersson, Arne Ohman, Martin Ingva. Predictability modulates the affective and sensory-discriminative neural processing of pain. NeuroImage. vol 32. issue 4. 2006-11-30. PMID:16861005. |
in contrast, the unpredictable more aversive context was correlated to brain activity in the anterior insula and the orbitofrontal cortex, areas associated with affective pain processing. |
2006-11-30 |
2023-08-12 |
human |
| Till Sprenger, Michael Valet, Henning Boecker, Gjermund Henriksen, Mary E Spilker, Frode Willoch, Klaus J Wagner, Hans J Wester, Thomas R Töll. Opioidergic activation in the medial pain system after heat pain. Pain. vol 122. issue 1-2. 2006-06-06. PMID:16527398. |
opioids modulate the affective component of pain and in vivo data indicate that opioids induce activation changes in the rostral acc, insula and other brain areas. |
2006-06-06 |
2023-08-12 |
human |
| David A Seminowicz, Karen D Davi. Cortical responses to pain in healthy individuals depends on pain catastrophizing. Pain. vol 120. issue 3. 2006-04-18. PMID:16427738. |
instead, during mild pain, there was a relationship between catastrophizing and activity in cortical regions associated with affective, attention, and motor aspects of pain, including dorsolateral prefrontal, insula, rostral anterior cingulate, premotor, and parietal cortices. |
2006-04-18 |
2023-08-12 |
human |
| Hugo D Critchle. Neural mechanisms of autonomic, affective, and cognitive integration. The Journal of comparative neurology. vol 493. issue 1. 2006-03-09. PMID:16254997. |
it is hypothesized that the neural substrate for these processes during motivational and affective behavior lies within the interactions of anterior cingulate, insula, and orbitofrontal cortices. |
2006-03-09 |
2023-08-12 |
Not clear |
| Reny de Leeuw, Romulo Albuquerque, Jeffrey Okeson, Charles Carlso. The contribution of neuroimaging techniques to the understanding of supraspinal pain circuits: implications for orofacial pain. Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics. vol 100. issue 3. 2006-02-22. PMID:16122658. |
the insula may mediate both affective and sensory-discriminative aspects of the pain experience. |
2006-02-22 |
2023-08-12 |
Not clear |
| Melissa A Rosenkranz, William W Busse, Tom Johnstone, Cheri A Swenson, Gina M Crisafi, Maryjo M Jackson, Jos A Bosch, John F Sheridan, Richard J Davidso. Neural circuitry underlying the interaction between emotion and asthma symptom exacerbation. Proceedings of the National Academy of Sciences of the United States of America. vol 102. issue 37. 2005-11-09. PMID:16141324. |
the anterior cingulate cortex and insula have been implicated in the affective evaluation of sensory stimulation, regulation of homeostatic responses, and visceral perception. |
2005-11-09 |
2023-08-12 |
human |
| Katja Werheid, Gamze Alpay, Ines Jentzsch, Werner Somme. Priming emotional facial expressions as evidenced by event-related brain potentials. International journal of psychophysiology : official journal of the International Organization of Psychophysiology. vol 55. issue 2. 2005-04-18. PMID:15649552. |
its dipole sources were localised in the inferior occipitotemporal cortex, possibly related to the detection of expression-specific facial configurations, and in the insular cortex, considered to be involved in affective processes. |
2005-04-18 |
2023-08-12 |
human |
| Alan Simmons, Scott C Matthews, Murray B Stein, Martin P Paulu. Anticipation of emotionally aversive visual stimuli activates right insula. Neuroreport. vol 15. issue 14. 2005-01-11. PMID:15371746. |
while it is apparent that the insula and medial frontal cortex are involved in processing anticipation of physical (i.e., painful) stimuli, their role in processing anticipation of aversive affective stimuli has yet to be determined. |
2005-01-11 |
2023-08-12 |
human |
| Alan Simmons, Scott C Matthews, Murray B Stein, Martin P Paulu. Anticipation of emotionally aversive visual stimuli activates right insula. Neuroreport. vol 15. issue 14. 2005-01-11. PMID:15371746. |
the insula, dorsolateral prefrontal cortex, and parahippocampal gyrus activated during anticipation of aversive affective images. |
2005-01-11 |
2023-08-12 |
human |
| Mary L Phillips, Wayne C Drevets, Scott L Rauch, Richard Lan. Neurobiology of emotion perception II: Implications for major psychiatric disorders. Biological psychiatry. vol 54. issue 5. 2003-11-07. PMID:12946880. |
we have previously discussed two neural systems: 1) a ventral system, including the amygdala, insula, ventral striatum, ventral anterior cingulate gyrus, and prefrontal cortex, for identification of the emotional significance of a stimulus, production of affective states, and automatic regulation of emotional responses; and 2) a dorsal system, including the hippocampus, dorsal anterior cingulate gyrus, and prefrontal cortex, for the effortful regulation of affective states and subsequent behavior. |
2003-11-07 |
2023-08-12 |
Not clear |
| Kerstin Sander, André Brechmann, Henning Scheic. Audition of laughing and crying leads to right amygdala activation in a low-noise fMRI setting. Brain research. Brain research protocols. vol 11. issue 2. 2003-08-01. PMID:12738003. |
using low-noise functional magnetic resonance imaging (fmri) in combination with controlled sound delivery, we investigated how the amygdala, insula and auditory cortex are involved in the processing of affective non-verbal vocalizations (laughing, crying) in healthy humans. |
2003-08-01 |
2023-08-12 |
Not clear |
| K Sander, H Scheic. Auditory perception of laughing and crying activates human amygdala regardless of attentional state. Brain research. Cognitive brain research. vol 12. issue 2. 2001-12-18. PMID:11587889. |
using low-noise functional magnetic resonance imaging (fmri), we investigated in which way the amygdala, auditory cortex and insula are involved in the processing of affective nonverbal vocalizations (laughing and crying) in healthy humans. |
2001-12-18 |
2023-08-12 |
human |
| A Schnitzler, M Plone. Neurophysiology and functional neuroanatomy of pain perception. Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society. vol 17. issue 6. 2001-03-22. PMID:11151977. |
the insula has been proposed to be involved in autonomic reactions to noxious stimuli and in affective aspects of pain-related learning and memory. |
2001-03-22 |
2023-08-12 |
human |
| K Wiech, H Preissl, N Birbaume. [Neural networks and pain processing. New insights from imaging techniques]. Der Anaesthesist. vol 50. issue 1. 2001-03-22. PMID:11220253. |
information for the affective pain component reach the anterior cingulate cortex, insula and prefrontal cortex via medial thalamic nuclei. |
2001-03-22 |
2023-08-12 |
Not clear |