Vol 42, No 4 (2016)

This study is focused on changes in the brain function throughout the adulthood in healthy men and women performing task switching (TS) in the visual modality. One hundred and forty healthy subjects aged 20 to 65 years (69 men) participated in the experiments. In the fMRI study, the subjects performed a test that required switching attention between two objectives (classifying figures according to their form or number). Using the voxel-based morphometry (VBM), we calculated the volumes of gray and white matter in the whole brain and in selected areas. The results showed that a common feature of different age and sex groups performing the TS was bilateral activation of the dorsolateral prefrontal areas, the inferior parietal lobes and the inferior occipital gyrus. We also found a transition from local to diffuse activation occurring with age. In young men (20 to 30 years of age) compared to women, a greater increase in the BOLD signal was found in the prefrontal areas bilaterally, the right parietal lobe and insula, and, in addition, bilateral activation in the supplementary motor area which were not observed in women. Older men and women (51 to 65 years) had no significant differences. The study of the BOLD signal correlations with age in women at the age from 20 to 40 and men from 20 to 55 years showed no significant changes. With further increase of age in both groups we found a consequent increase in the number of brain areas which are activated. The VBM analysis showed a significant decrease in the volume of gray, but not white, matter with age. No significant correlations between age-related changes in the gray matter volume (both in the whole brain and in the specific areas) and BOLD signal in this age group were detected.

The objective of this research was to compare the features of the shape of the foveolar area with the characteristics of eye movements in reading. To measure the size of the fovea, we used the method of optical coherence tomography of the retina. Based on this method, the diameter of the upper part of fovea (fovea diameter) and fovea bottom (foveola diameter) were determined. We found a negative correlation between the fovea diameter and fixation duration and positive correlations at the level of tendency between the foveola diameter and the number of saccades performed and between the foveola diameter and the number of characters captured by eye per fixation.

The postural stability on a seesaw generating anterior–posterior instability with the eyes open (EO) and then the eyes closed (EC) in young healthy subjects (n = 28) before and 6 min after the maximum bicycle exercise (Wingate test) performed using lower limbs (“leg exercise”) or upper limbs (“hand exercise”) was investigated. It was found that “hand exercise” caused the same increase in average velocity (V, mm/s) and in the average range of sway of the centre of pressure (Qy, mm) as “leg exercise.” However, the duration of V recovery (EC: 2 min 30 s and 50 s; EO: 60 s and 40 s after “leg exercise” and “hand exercise,” respectively) and Qy (EC: 1 min 10 s and 30 s after “leg exercise” and “hand exercise,” respectively; EO: no changes from baseline) was shorter after “hand exercise.” In the presence of visual information, the increment in V decreased more than 2 times after “leg exercise” (+100.5% and + 40.5%, p < 0.01 for EC and EO, respectively) and after “hand exercise” (+73.0% and +30.3%, p < 0.01 for EC and EO, respectively). Moreover, Qy after both exercises remained at the initial level under EO conditions but significantly increased under EC conditions (+42.8%, p < 0.01 after “leg exercise” and +40.3%, p < 0.01 after “hand exercise”). Thus, the maximum exercise for the muscles of the upper limbs causes the same reduction in postural stability as analogous exercise for the muscles of the lower limbs, but the recovery period after “hand” exercise was shorter. The presence of visual information allows the baseline maintenance of postural stability and significantly reduces the strain of postural regulation while standing on a movable support after the maximum “leg exercise” and “hand exercise.”

The vertical posture was studied during standing with fееt on the support surfaces of different structures. The movements of the center of pressure (CP) of each leg and the common CP (CCP) were recorded while the subject stood with a support on a smooth floor and with the support of one foot on a spike mat (SM) with different load distributions between the legs. When the body weight was transferred to one leg during standing under ordinary conditions on a smooth floor, the CP of the loaded leg moved more than the CP of the unloaded leg; i.e., the posture sway was compensated mainly due to the activity of the loaded leg, which created a larger torque. When the subject stood with one foot on the SM, the CP movement of this leg did not depend on the leg load and was about 60% of the CP movement of the leg on the smooth floor. Apparently, the CP displacement of the unloaded leg on smooth support was larger than the CP displacement of the loaded leg creating the torque necessary for compensating the body sway. Thus, maintaining the vertical posture was carried out mainly by the leg standing on the smooth support. It is assumed that additional stimulation of different surface and deep receptors of the foot caused by foot support on the SM hampered the perception of its CP position, and the vertical posture was maintained mainly by the leg afferent signals from which more precisely reflected the CP position.

A study was made to evaluate the prospects of improving the cardiac function by electrical stimulation of the auricular branch of the vagus nerve in patients with severe chronic heart failure (CHF). Sympathetic hyperactivity and the cardiac function were evaluated by 24-hour ECG monitoring, echocardiography, and a 6-min walk test. At the time of enrollment into the study, patients had a heart rate (HR) of more than 60 bpm, a left ventricular (LV) ejection fraction (EF) of less than 40%, and CHF NYHA functional class (FC) III or IV even with well tolerated medications. Control-group patients (n = 7) did not show significant changes in the functional state of the heart after sham treatment. In the test group (n = 44), a significant increase in LV EF and a decrease in end-systolic volume were induced by electrical pulse stimulation of the auricular branch. A decrease in HR was documented in 34 patients; CHF FC decreased by one or two grades in 40 patients. The changes were assumed to reflect new balance achieved in the autonomic regulation of the heart to contribute to sustaining competence of the myocardium. Electrical pulse stimulation of the auricular branch of the vagus nerve was concluded to provide a safe and efficacious addition to drug therapy in patients with severe CHF.

The dynamics of the glycemic curve profile was investigated in 8 healthy women during performance of the glucose tolerance test (GТТ) in 120-day antiorthostatic hypokinesia (–6°) (АNОH) simulating the effects of weightlessness. Glycemic profiles were characterized by more marked hyperglycemic response at 30 min of GТТ in the first month of stay under ANOH conditions and had a flattened appearance three months later. Glycemic profiles characteristic of delayed restoration of the blood glucose concentration appeared in the fourth month, which persisted over the first week after the end of АNОH. The glycemic profile changes developed against the background of the signs of progressive congestion of blood in the venous system of the abdominal cavity. The expansion of diameters of the main veins of the abdominal cavity was noted at the beginning of АNОH; an increase in the size of the organs and the signs of expansion of venous plexuses at the site of portocaval anastomoses, after three months; the occurrence of the signs of transudation and free fluid in the abdominal cavity was revealed at the end of hypokinesia. The countermeasures against hypodynamia did not prevent transformation of the glycemic profile nor did they influence the progression of blood flow congestion in the venous system of the abdominal cavity whose features determined the character changes in the glycemic profile in different periods of ANOH.

The effector function of sensory peptidergic perivascular fibers was examined upon multiple exposures to low-intensity millimeter electromagnetic waves by means of laser Doppler flowmetry. Low-intensity millimeter waves (wavelength, 7.1 mm; power density, 0.1 mW/cm²) were shown to increase the microcirculation index, which characterized the change in perfusion upon electrical stimulation, and to decrease the latency from the start of stimulation to the onset of vasodilation, pointing to an increase in the effector function of sensory peptidergic fibers and micruvascular reactivity.

The review covers the data on the toxic effects of trace elements on the male reproductive system. The basic pathogenetic mechanisms of male infertility are described. Different points of view on the effect of high concentrations of trace elements on the functions of endocrine system components, male reproductive tract, properties of gametes, and state of their genetic material are considered.