Introduction. Issues of studying the central origins and development of оccupational pathology in the faces of flight personnel define a need for the application of neurophysiological and neuropsychological methods of research. Material and methods. The levels of constant potential (LCP), characteristics the somatosensory caused potentials (SSVP), neuropsychological features in 95 patients with оccupational neurosensory deafness (ONSD) and 35 cases in a group of comparison are studied. Methods of the statistical analysis with a definition of W-of criterion of Shapiro-Uilka, Mann-Whitney›s U-criterion, coefficient of correlation of Spirmen, the discriminant analysis are applied. Results. in ONSD at patients the quantity of cases with the increased values of average LCP were established to prevail significantly in comparison with those in patients of a group of comparison (39% and 13% respectively, р = 0.03), strengthening of neuropower exchange in right and left frontal, central, left central, left parietal, right temporal assignments, increase in duration of the latent period of N18, N30 components are registered (р < 0.05). The condition of the cognitive sphere was characterized by the easily expressed violations of functions of analytical and synthetic thinking, оral-aural memory, visual, long-term memory, reciprocal coordination, impressive speech. Correlation connection between the index of N13-N20 and indices characterizing a condition of long-term memory, reciprocal coordination, the expressional speech is established (rs=0.45; 0.28; 0.28 at р =0.008; 0.04; 0.03 respectively), an index the between hemispheres of the relations Fd-Fs and latency of P25 and N30 (rs = 0.53 and 0.29 at р =0.009; 0.02 respectively). Diagnostic signs of brain deficiency at patients with ONSD were indices of visual gnosis, reciprocal coordination, LCP in right central, central parietal assignments of a brain, duration of the latent period of N30, N18-N20 (F=9.14; 5.43; 6.08; 4.41 4.77; 4.34 respectively). Conclusions. Violations of power metabolism in the frontal and central and parietal and temporal assignments of a brain, a functional condition of the central carrying-out structures, disorganization of cognitive activity were established to be a consequence of the impact of aviation noise and the reason of brain deficiency.
Introduction. Vibration disease continues to occupy one of the leading places in the structure of professional pathology. In workers after the termination of contact with vibration generalization and progression of violations in an organism is noted. The pathogenetic mechanisms of the progredient course of disturbances in the nervous system in the post-contact period of vibration exposure remain insufficiently studied.The aim of the study was to test an experimental model of vibration exposure to assess the neurophysiological and morphological effects of vibration in rats in the dynamics of the post-contact period.Materials and methods. The work was performed on 168 white male outbred rats aged 3 months weighing 180–260 g. The vibration effect was carried out on a 40 Hz vibrating table for 60 days 5 times a week for 4 hours a day. Examination of animals was performed after the end of the physical factor, on the 30th, 60th and 120th day of the post-contact period. To assess the long-term neurophysiological and morphofunctional effects of vibration in rats, we used indicators of behavioral reactions, bioelectric activity of the somatosensory zone of the cerebral cortex, somatosensory and visual evoked potentials, parameters of muscle response, morphological parameters of nervous tissue.Results. In the dynamics of the post-contact period observed the preservation of violations of tentatively research, motor and emotional components of behavior. In the Central nervous system instability of activity of rhythms of an electroencephalogram, decrease in amplitude of visual evoked potentials, lengthening of latency of somatosensory evoked potentials, decrease in total number of normal neurons and astroglia is established. In the peripheral nervous system remained changes in indicators: increasing duration and latency, reducing the amplitude of the neuromuscular response.Conclusions: The experimental model allows us to study the long-term neurophysiological and morphological effects of vibration on the body. The formation and preservation of changes in behavioral activity, neurophysiological and morphological effects of vibration from the 30th to the 120th day of the post-contact period were confirmed.
Introduction. The defeat of motor and sensory conductive structures, which ultimately leads to the development of demyelination processes and, as a consequence, the formation of polyneuropathic syndrome is natural under the influence of industrial vibrations. Exposure to vibration, along with other harmful working conditions, can potentiate the development of metabolic syndrome, which can lead to the development of diabetes, which is one of the most common causes of damage to the peripheral nervous system. Based on the above, it seems relevant to give a comprehensive assessment of the state of peripheral nerves and afferent conductive structures in workers exposed in their professional activities combined effect of local and general vibration, and patients with vibration disease, burdened with diabetes. Material and methods. 114 people were examined in clinical conditions. The observed cases included 50 with vibration disease (WB) associated with exposure to local and General vibration (group 1), the second group - 29 people with WB, burdened with type 2 diabetes. The control group (group 3) consisted of 35 conditionally healthy men, representative age (52.0±6.4 years) without contact with harmful factors of production. Results. In patients of group 1, changes were observed in increasing the time of postsynaptic activation of the posterior horns of the spinal cord and activation of neurons of the somatosensory zone of the cerebral cortex. In patients of group 2, changes in the state of the central afferent pathways were more pronounced, shown in increasing the time of the excitation wave from the cervical thickening to the thalamic nuclei, as well as violations in the state of the conductive structures in the thalamic region. Analysis of the peripheral nerves in group 1 patients revealed changes in demyelinating lesions of the motor and sensory components of the tibial nerve and changes in the speed indices of the nerves of the upper extremities. The examined 2 groups had similar disorders, there was a statistically significant decrease in the speed of sensory axons of the lower extremities. conclusion. It was found that the combined effect of vibration and diabetes mellitus leads to aggravation of the demyelination processes of both sensory and motor axons of peripheral nerves in patients. There is a statistically significant decrease in the amplitude of the M-response on the lower extremities.
Introduction. Objective data necessary for acquiring information about the localization and severity of the pathological process in afferent conductive structures can be obtained by registering somatosensory evoked potentials (SSEP). The goal is to identify neurophysiological features during the registration of SSEPs during stimulation of the median and tibial nerves in patients with the vibrational disease (VD). Material and methods. 140 people were examined: group 1 - 50 patients with VD associated with the combined effects of local and general vibration (aged 48.7 ± 3.1 years); Group 2 - 50 patients with VD associated with exposure to local vibration (aged 48.9 ± 2.8 years); Group 3 - control, including 40 relatively healthy men without the exposure to vibration (aged 49.1 ± 2.5 years). Registration of SSEP was carried out with stimulation of the median and tibial nerves. Statistical processing of the results is “Statistica 10.0” (StatSoft, USA, 2011). The differences in the mean values in the samples were estimated using the Wilcoxon criterion. The differences were considered statistically significant at p <0.05 and 0.01. Results. When the median nerve was stimulated, the latency of the SSVP components increased: for group 1 - indices N9, N10, N11, N13, N20, P25, N30, for group 2 - components N10, N11, N13, N30. A marked increase in latency and intervals was found in group 1. When the tibial nerve was stimulated in group 1, a statistically significant increase in the latency of components N18, N22, N30, characterizing the conduction from the popliteal fossa to the lumbar and then to the cervical level of the spine was revealed. Discussion. The results of the study are consistent with data from previous studies on SSEPs with stimulation of the median nerve. For the first time, it was revealed that in patients of group 1, the registration of SSEP during stimulation of the tibial nerve gives an increase in the time of the impulse at the peripheral level in the popliteal fossa. Conclusion. The SSVP registration method expands the state of afferent pathways. Changes in the state of neurons of the central afferent conducting structures in patients of groups 1 and 2 consisted of more pronounced functional changes at the level of the cervical spinal cord and somatosensory cortex in group 1. During stimulation of the tibial nerve, a slowing down of the afferent excitation wave from the distal sections and further along the ascending paths of the spinal cord to the posterior pillars of the cervical region was noted.
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