cervical sympathectomy works systemically through hypothalamus endocrine system

Background: To investigate the general action of stellate ganglion block (SGB), we examined the effects of heat stimulation and cold stress on the behavior and stress hormone of the bilateral cervical sympathectomy rats as a long-term and repeated SGB model. Methods: Wistar's male rats were divided into three groups: control (C), sham operation (S) and sympathectomy (Sx) groups. After 2 weeks, two experiments were done. One was measurement of escape response time from the heat stimulus and the other was hormone measurement. Serum adreno-corticotropic hormone (ACTH), .ALPHA.-melanocyte stimulating hormone (.ALPHA.-MSH) and .BETA.-endorphine (.BETA.-END) levels were measured assigning 3 groups to 2 subgroups with and without cold stress. Results: Escape response time was significantly extended in the Sx group. ACTH in the Sx group was significantly higher than in other groups, but changes of ACTH by cold stress were similar in 3 groups. In the Sx group .ALPHA.-MSH was hardly changed by cold stress while .ALPHA.-MSH was significantly decreased in the S group. Changes of .BETA.-END by cold stress were similar in the S and Sx groups. Conclusions: These results suggest that SGB works systemically through hypothalamus endocrine system and affects stress hormone differently. (author abst.)

http://sciencelinks.jp/j-east/article/200402/000020040204A0020288.php

Limbic-cortical dysregulation: a proposed model of depression

cognition and reward processing

Recent functional magnetic resonance imaging (fMRI) investigations of the interaction between cognition and reward processing have found that the lateral prefrontal cortex (PFC) areas are preferentially activated to both increasing cognitive demand and reward level. Conversely, ventromedial PFC (VMPFC) areas show decreased activation to the same conditions, indicating a possible reciprocal relationship between cognitive and emotional processing regions. We report an fMRI study of a rewarded working memory task, in which we further explore how the relationship between reward and cognitive processing is mediated. We not only assess the integrity of reciprocal neural connections between the lateral PFC and VMPFC brain regions in different experimental contexts but also test whether additional cortical and subcortical regions influence this relationship. Psychophysiological interaction analyses were used as a measure of functional connectivity in order to characterize the influence of both cognitive and motivational variables on connectivity between the lateral PFC and the VMPFC.

These findings provide evidence for a dynamic interplay between lateral PFC and VMPFC regions and are consistent with an emotional gating role for the VMPFC during cognitively demanding tasks. Our findings also support neuropsychological theories of mood disorders, which have long emphasized a dysfunctional relationship between emotion/motivational and cognitive processes in depression.
http://dl.acm.org/citation.cfm?id=1480468