Brain bioelectrical activity at a high anxiety level in humans

Brain bioelectrical activity was studied in 38 and 34 subjects with high and low levels of anxiety, respectively, by means of toposelective mapping of EEG spectral power and recording of P300 endogenous event-related auditory evoked potentials (EPs). Analysis of EEG spectra demonstrated, in the subjects with a high level of trait anxiety, a higher power of β₁ oscillations in the central-parietal areas of both hemispheres and the occipital area of the right hemisphere, as well as a higher power of θ and α oscillations in the frontal areas of both hemispheres and the central-parietal area of the left hemisphere. The occipital-frontal gradient of the spectral power of these rhythmic EEG components was altered in subjects with a high level of trait anxiety. Comparison of P300 cognitive auditory EPs in the subjects with high anxiety and in the control group showed that, in the former, the P300 EP amplitude and the habituation distortion (dishabituation) of the P300 EP amplitude were significantly higher in both hemispheres. This indicates that, at a high level of anxiety, the active directed attention was disturbed, which is confirmed by the results of neuropsychological examination, demonstrating reduced selectivity, concentration, and stability of attention in the Münsterberg test and Schulte’s test. The results of electrophysiological examination suggest that the malfunction of regulatory brain modulating systems is an important neurophysiological mechanism of attention pathology and disturbed adaptation in subjects with a high level of trait anxiety.     

Neurobiological studies of gamma-band bioelectrical activity in humans

The modem literature data were observed, which dedicated to the study of neurobiological studies of gamma-rhythm mechanisms, providing the cognitive functions in hymans: state of readiness and attention, providing of sensory indentification, perception and memorizations, decision-making, management of psychomotor response, emotional and semantic processing of an information. It was shown that synchronous gamma-activity is at integrative activity, which in deteriorated in pathology of thinking. Literature data were analysed concerning ot the changes of gamma-activity (spontaneous, evoked, provoked by photostimulation etc.) in a number of neuropsychiatric disorders: epilepsy, schizophrenia, Alzheimer's disease, attention deficit hyperactivity disorder, stroke etc. as compared with norm. The data observed testify to high significance of gamma-activity in the brain functioning.     

Anxiolytic effect of dehydroepiandrosterone sulfate in male mice with high anxiety level

Effects of dehydroepiandrosterone sulfate (DHEAS, 30 mg/kg, i.p., 4 and 28 hours after an injection) on CBA/Lac male mice with increased level of anxiety resulting from chronic (20-day) social confrontations were studied in two behavioral tests. The anxiolytic effect of DHEAS was observed both 4 and 28 hours after an injection in the partition test of social interactions and in the plus-maze test.     

Selection of mice for high level of extrapolation capacity with cobcommitant low anxiety level

The behavior scores were assessed in mice selected simultaneously for high percentage of correct extrapolation task solutions and for low anxiety during test performance. Extrapolation test requires that the hungry animal searches for the food bait which disappeared from the view moving in the direction of food bait movement. In the 4th selection generation no significant changes occurred in the percentage of correct task solutions neither in comparison to control unselected population, nor against 50% chance level. Although the proportion of mice in selected strain which performed with 80-100% of correct solutions increased and in F4 was higher in comparison to controls (approaching significance). The proportion of "0" solution (when mouse made no choice) and of "refusals" of performance (anxiety indices in this test) were lower in selected line and the proportion of refusals in F4 was significantly lower than in controls. Elevated plus maze, closed plus maze and inescapable slippery funnel tests demonstrated significantly lower anxiety in mice of selected strain. These data demonstrate much more complex genetic basis for the capacity for extrapolation (lack of response to selection) in comparison with that of anxiety traits in mice (changes in the response to selection).     

Fear-conditioning mechanisms associated with trait vulnerability to anxiety in humans

Investigations of fear conditioning in rodents and humans have illuminated the neural mechanisms underlying cued and contextual fear. A critical question is how personality dimensions such as trait anxiety act through these mechanisms to confer vulnerability to anxiety disorders, and whether humans' ability to overcome acquired fears depends on regulatory skills not characterized in animal models. In a neuroimaging study of fear conditioning in humans, we found evidence for two independent dimensions of neurocognitive function associated with trait vulnerability to anxiety. The first entailed increased amygdala responsivity to phasic fear cues. The second involved impoverished ventral prefrontal cortical (vPFC) recruitment to downregulate both cued and contextual fear prior to omission (extinction) of the aversive unconditioned stimulus. These two dimensions may contribute to symptomatology differences across anxiety disorders; the amygdala mechanism affecting the development of phobic fear and the frontal mechanism influencing the maintenance of both specific fears and generalized anxiety.     

Segmental body composition assessed by bioelectrical impedance analysis and DEXA in humans

Bracco, David, Daniel Thiébaud, René L. Chioléro, Michel Landry, Peter Burckhardt, and Yves Schutz.Segmental body composition assessed by bioelectrical impedanceanalysis and DEXA in humans. J. Appl.Physiol. 81(6): 2580-2587, 1996.The present study assessed the relative contribution of each body segment to wholebody fat-free mass (FFM) and impedance and explored the use ofsegmental bioelectrical impedance analysis to estimate segmental tissuecomposition. Multiple frequencies of whole body and segmentalimpedances were measured in 51 normal and overweight women. Segmental tissue composition was independentlyassessed by dual-energy X-ray absorptiometry. The sum ofthe segmental impedance values corresponded to the whole body value(100.5 ± 1.9% at 50 kHz). The arms and legs contributed to 47.6 and 43.0%, respectively, of whole body impedance at 50 kHz, whereas they represented only 10.6 and 34.8% of total FFM, asdetermined by dual-energy X-ray absorptiometry. The trunk averaged10.0% of total impedance but represented 48.2% of FFM. For eachsegment, there was an excellent correlation between the specificimpedance index(length²/impedance) and FFM(r = 0.55, 0.62, and 0.64 for arm,trunk, and leg, respectively). The specific resistivity was in asimilar range for the limbs (159 ± 23 cm for the arm and 193 ± 39 cm for the leg at 50 kHz) but was higher for the trunk (457 ± 71 cm). This study shows the potential interest of segmental bodycomposition by bioelectrical impedance analysis and provides specificsegmental body composition equations for use in normal and overweightwomen.

     

Brain copper content and cuproenzyme activity do not vary with prion protein expression level

Prion diseases are neurodegenerative disorders that result from conformational transformation of a normal cell surface glycoprotein, PrP(C), into a pathogenic isoform, PrP(Sc). Although the normal physiological function of PrP(C) has remained enigmatic, the recent observation that the protein binds copper ions with micromolar affinity suggests a possible role in brain copper metabolism. In this study, we have used mice that express 0, 1, and 10 times the normal level of PrP to assess the effect of PrP expression level on the amount of brain copper and on the properties of two brain cuproenzymes. Using mass spectrometry, we find that the amount of ionic copper in subcellular fractions from brain is similar in all three lines of mice. In addition, the enzymatic activities of Cu-Zn superoxide dismutase and cytochrome c oxidase in brain extracts are similar in these groups of animals, as is the incorporation of (64)Cu into Cu-Zn superoxide dismutase both in cultured cerebellar neurons and in vivo. Our results differ from those of another set of published studies, and they require a re-evaluation of the role of PrP(C) in copper metabolism.     

Brain expression level and activity of HDAC6 protein in neurodegenerative dementia

Histone deacetylase 6 (HDAC6) is a multifunctional cytoplasmic protein that plays an especially critical role in the formation of aggresomes, where aggregates of excess protein are deposited. Previous immunohistochemical studies have shown that HDAC6 accumulates in Lewy bodies in Parkinson’s disease and dementia with Lewy bodies (DLB) as well as in glial cytoplasmic inclusions in multiple system atrophy (MSA). However, it is uncertain whether the level and activity of HDAC6 are altered in the brains of patients with neurodegenerative dementia. In the present study, we demonstrated that the level of HDAC6 was not altered in the temporal cortex of patients with Alzheimer’s disease and DLB in comparison with controls. In contrast, the level of HDAC6 was significantly increased in the temporal cortex of patients with frontotemporal lobar degeneration with TDP-43 inclusions (FTLD-TDP) and in the cerebellar white matter of patients with MSA. However, the level of acetylated α-tubulin, one of the substrates of HDAC6, was not altered in FTLD-TDP and MSA relative to controls. These findings suggest that the induced level of HDAC6 in the brain is insufficient for manifestation of its activity in FTLD-TDP and MSA.     

Spatiotemporal organization of bioelectrical brain activity during gestational dominanta

Spectral and coherent analysis of biolectrical brain activity was performed in 560 pregnant women in gestational dynamics and in the early post-natal period. According to the theory and the experiments, it can be concluded that the occurrence of one-fetus pregnancy is accompanied by formation of gestational dominanta (constellation of nervous centers) with its central units in the limbicodiencephalic and neocortical structures. Neocortical representation is formed within the frontal and central areas of the hemisphere contralateral to location of the placenta. Electrographic evidence in support of these ideas was found.     

EEG characteristics of bioelectrical activity of the brain in women with normal and complicated pregnancy

Spectrum and coherent EEG analysis has been made at 109 pregnant women during 35-36 weeks of gestation. It has been shown, that functional interhemispherical asymmetry of the brain is the sensible parameter of normal and complicated gestation. It has been found out that as for normal pregnancy prevailing activation in central and temple areas of the brain contralateral to the side of placenta placement in uterus is characteristic. The development of gestation complications accompanied by the inversion of interhemispherical asymmetry of EEG activation. It was pointed out that correlative relations of bioelectrical activity of the brain in women with normal gestation are the indicator of dominating of nervous centers of left hemisphere in the integrational process.     

Changes in the bioelectrical activity of the brain cortex in rats with infraorbital nerve compression]

Bioelectrical activity of the somatosensory cortex was studied in the Wistar rats with chronic (1.5-2 months) compression of the infraorbital nerve produced by two partial ligations. In 20% of rats spike-slow wave complex and slow waves were observed. Electrostimulation of the skin on the injured nerve side resulted in a considerable increase in the amplitude of early components of the contralaterally evoked potentials in comparison with the non-injured side stimulation in 75% of rats. A decrease in the evoked potential thresholds on the injured nerve stimulation was shown in both hemispheres. In most of the animals a hypersynchronous late component of the evoked potential was observed.