The goal of the study was assessment of the hour-long training involving handling virtual environment (sVR) and watching a stereoscopic 3D movie on the mechanisms of autonomic heart rate (HR) regulation among the subjects who were not predisposed to motion sickness. In order to exclude predispositions to motion sickness, all the participants (n=19) underwent a Coriolis test. During an exposure to 3D and sVR the ECG signal was continuously recorded using the Holter method. For the twelve consecutive 5-min epochs of ECG signal, the analysis of heart rate variability (HRV) in time and frequency domains was conducted. After 30 min from the beginning of the training in handling the virtual workstation a significant increase in LF spectral power was noted. The values of the sympathovagal LF/HF index while sVR indicated a significant increase in sympathetic predominance in four time intervals, namely between the 5th and the 10th minute, between the 15th and the 20th minute, between the 35th and 40th minute and between the 55th and the 60th minute of exposure.
The study determined physiological and psychophysical responses to fire fighters' typical activities. Self-reported assessment of the most demanding fire fighting/rescue tasks were collected with a questionnaire. Then 19 voluntary fire fighters performed 3 simulated fire fighting/rescue tasks in protective clothing. Heart rate (HR), blood pressure and energy expenditure were measured; the rating of perceived exertion (RPE) was assessed with the Borg scale. The questionnaires showed that carrying out victims, fire suppression and resuscitation were classified as heavy load; climbing stairs with a hose as moderate load. According to RPE the subjects considered their effort during ladder climbing fairly light and only somewhat harder during stair climbing and carrying out injured people. The study demonstrated that typical fire fighting/rescue tasks were associated with high energy expenditure and imposed considerable cardiovascular stress. The Borg scale appeared not suitable for assessing perceived exertion in fire fighters during simulated tasks.
Previously, we have demonstrated that the timing of the nocturnal peak of activity of the pineal arylalkylamine-N-acetyltransferase - a key enzyme in the melatonin biosynthesis pathway - in 3-wk-old chickens kept from the day of hatch under controlled laboratory conditions (L:D 12:12) varies depending on the season of hatch (summer vs. winter). The present study was undertaken to answer the following questions: (1) are season-related differences seen in the level of transcription of genes encoding enzymes of the melatonin biosynthesis pathway? (2) Does the pineal content of the main precursor (serotonin) and the final product (melatonin) exhibit age- and season-related changes? (3) At which step in postembryonic development are these season-related variations in pineal gland function most pronounced? Male Hy-line chickens hatched in the summer or winter, from eggs laid by hens held on L:D 16:8, were kept from the day of hatch under L:D 12:12 conditions. At the age of 2, 9, or 16 d, chickens were sacrificed every 2 h over a 24-h period and their pineal glands, isolated under dim red light, were processed for the measurement of (i) the level of Aanat and Asmt (acetylserotonin O-methyltransferase) mRNAs encoding the two last enzymes involved in melatonin biosynthesis, (ii) the activity of these enzymes, and (iii) the pineal content of serotonin and melatonin. Circadian rhythmicity of all the measured parameters was evaluated by the cosinor method. The levels of Aanat mRNA, AANAT enzymatic activity, and the pineal melatonin content changed during postembryonic development in a manner that was dependent on the season of hatch. Furthermore, the diurnal profile of Asmt mRNA was elevated during the light phase. In "winter" birds, the pattern and amplitude of the diurnal rhythm of accumulation of this transcript did not change with age, while in "summer" birds it increased in an age-related way. In contrast, the enzymatic activity of hydroxyindole-O-methyltransferase (HIOMT; encoded by the Asmt gene) did not change rhythmically, although it increased with age in a season-related way. In "winter" chickens, the pineal serotonin content was low, regardless of age, and did not change rhythmically, whereas in "summer" individuals the serotonin rhythm was already well established by day 2, with the amplitude increasing with age. These results confirm the existence of a "seasonal memory" operating within the chicken pineal gland, although the mechanism(s) underlying this phenomenon have yet to be characterized.
The goal of the study was to determine the effect of a 1-h hour long forklift truck virtual simulator driving on the mechanism of autonomic heart rate (HR) regulation in operators. The participants were divided into 2 subgroups: subjects with no definite inclination to motion sickness (group A) and subjects with a definite inclination to motion sickness (group B). Holter monitoring of electrocardiogram (ECG) signal was carried out in all subjects during the virtual simulator driving. For 12 consecutive epochs of ECG signal, HR variability analysis was conducted in time and frequency domains. In subjects with a definite inclination to motion sickness after ~30 min of the driving, changes in parameter values were found indicating an increase in sympathetic and parasympathetic activity with parasympathetic dominance.
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