A negative correlation occurs between the values of SCP in the occipital and left temporal leads and some immunological parameters. There is evidence that the activation of certain cortical and stem structures may cause inhibition of immune reactions. The negative correlation between the proliferative activity of T-lymphocytes and UPP in the left temporal and occipital regions clearly reflects the predominantly inhibitory effect of the corresponding parts of the cortex on immune responses. Since the amount of SCP in the occipital lead to a certain extent depends on the intensity of the energy processes in the brain stem, the detected correlation may indicate a relationship between the activity of this brain region and immune responses. This is confirmed by the data of the atura .
In subjects of middle age, significant correlation coefficients were found only between SCP in the right and left temporal regions and the functional activity of B lymphocytes . At the same time, both correlation coefficients are negative, which may be a consequence of the inhibitory control of the cortex of immune reactions.
Correlation coefficients between cerebral energy and immune parameters in healthy subjects 40-59 years
Elderly subjects retain the basic patterns found in the group of young subjects. The coefficients of the correlation of immune parameters with local potentials in the right and left temporal region show the multidirectional influence of the right and left hemispheres on immune responses.
Correlation coefficients between cerebral energy and immune indices in healthy subjects 60-80 years
High values of the hemispheric difference hemorrhoids are associated with an increase in the functional activity of T and B lymphocytes, i.e. the predominance of energy metabolism in the right hemisphere with low energy metabolism in the left hemisphere is accompanied in young and old age by an increase in the functional activity of T and B lymphocytes. Judging by the values of local SCP in the right and left temporal leads, these areas have the exact opposite effect on the proliferative activity of T-lymphocytes, which is consistent with the literature data (VV Abramov, 1988).
The increase in average SCP is accompanied by a decrease in the proliferative activity of T-lymphocytes . This dependence is explained by the fact that high values of SCP are observed at those stages of stress, when inhibition of immune activity occurs.