The aim of the present work was to identify neurophysiological correlates of the dynamics of the functional state of the brain in patients aged 20–51 years with apathetic depression during treatment. The spectral parameters of baseline electroencephalograms (EEG) and the latent periods of simple sensorimotor reactions and two-choice selection reactions to auditory stimuli were studied. At the stage of marked improvements in clinical status, patients showed a complex rearrangement of the temporospatial structure of the EEG, including EEG signs of increased inhibitory processes (in the form of increases in the spectral power of slow-wave delta, theta1, and theta2 activity), mainly in the frontal, central, and temporal zones of the right hemisphere, EEG signs of decreased activation of the temporal areas (in the form of a reduction in the spectral power of beta activity, especially in the right hemisphere), and EEG signs of increased activation of the anterior areas of the cortex of the left hemisphere of the brain by excitatory brainstem reticular structures (in the form of increases in the spectral power of beta activity in the left frontal and central zones). There were also decreases in the mean latent periods of a simple sensorimotor reaction and a twochoice selection reaction. These data are consistent with contemporary concepts of the predominant role of the right hemisphere in regulating negative emotions and the pathogenesis of depression.
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References
E. A. Zhirmunskaya, Clinical Electroencephalography [in Russian], Meibi, Moscow (1991).
A. F. Iznak and A. A. Zozulya, “The neurobiological bases of depression,” in: Depression in Clinical Medicine: Guidelines for Doctors [in Russian], A. B. Smulevich (ed.), MIA, Moscow (2001), pp. 20–31.
A. F. Iznak, “Neuronal plasticity as one aspect of the pathogenesis and treatment of affective disorders,” Psikhatr. Psikhofarmakoter., 7, No. 1, 24–27 (2005).
A. F. Iznak, “Electrophysiological correlates of psychogenic disorders,” Fiziol. Cheloveka, 33, No. 2, 137–139 (2007).
A. F. Iznak, “Instrumented diagnostic methods,” in: Psychiatry. National Guidelines [in Russian], T. B. Dmitrieva (ed.), GEOTAR, Moscow (2009), Chapter 14, pp. 262–280.
A. F. Iznak, E. V. Iznak, V. V. Kornilov, and V. A. Kontsevoi, “Dynamics of neurophysiological measures in the treatment of longterm psychogenic provoked depression,” Psikhiatriya (2011).
International Classification of Diseases (10th Edition): Classification of Mental and Behavioral Disorders. Clinical Description and Diagnostic Criteria [Russian translation edited by Yu. L. Nuller and C. Yu. Tsirkin], Overlaid, St. Petersburg (1994).
A. A. Mitrofanov, A Computer System for the Analysis and Topographic Mapping of Brain Electrical Activity with the Neurometric EEG Data Bank (Description and Application) [in Russian], Moscow (2005).
V. B. Strelets, A. I. Avin, and S. N. Zverev, “Mapping of brain biopotentials in patients with depressive syndrome,” Zh. Vyssh. Nerv. Deyat., 40, No. 5, 903–907 (1990).
American EEG Society, “Guidelines for clinical EEG/EP studies,” J. Clin. Neurophysiol., Suppl. 1, 48 (1993).
P. Flor-Henry, Cerebral Basis of Psychopathology, Wright, Boston (1983).
M. Y. Hamilton, “Psychopathology of depressions: quantitative aspects,” in: Psychopathology of Depression, Helsinki (1980), pp. 201–205.
W. Heller, “Neurophysiological mechanisms of individual differences in emotion, personality and arousal,” Neuropsychiatry, 7, No. 4, 476–482 (1993).
T. M. Itil, “Enhanced EEG. CEEG and brain mapping in psychiatry,” Synapse, 115, 20–25 (1995).
R. C. Kessler, P. Berglund, O. Demler, et al., “National Comorbidity Survey Replication. The epidemiology of major depressive disorder: results from the National Comorbidity Survey Replication (NCS-R),” J. Am. Med. Assoc., 289, 3095–3105 (2003).
D. Mathersul, L. M. Williams, P. J. Hopkinson, and A. H. Kemp, “Investigating models of affect: relationships among EEG alpha asymmetry, depression and anxiety,” J. Biol. Psychol., 80, 560–572 (2008).
I. Papousek and G. Schulte, “Associations between EEG asymmetries and electrodermal lability in low versus high depressive and anxious normal individuals,” Int. J. Psychophysiol., 34, 1–12 (2001).
B. T. Ustun and N. Sartorius, Mental Illness in General Practice: An International Study, New York (1995).
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Translated from Zhurnal Nevrologii i Psikhiatrii imeni S. S. Korsakova, Vol. 111, No. 7, pp. 49–53, July, 2011.
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Iznak, A.F., Iznak, E.V. & Sorokin, S.A. Changes in EEG and Reaction Times during the Treatment of Apathetic Depression. Neurosci Behav Physi 43, 79–83 (2013). https://doi.org/10.1007/s11055-012-9694-8
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DOI: https://doi.org/10.1007/s11055-012-9694-8