Introduction. In Russia, as in other countries, the share of the population engaged in professions in which the leading source of the health risk of workers is organizational and psychogenic causes is continuously increasing. Among them, the leading place is occupied by the physiologically inadequate workload. The aim of the research was to establish the relationship patterns of acute and chronic (professional burnout) fatigue with the workload, which was characterized by a combination of the intensity and quality of the work. Material and methods. The index used was generalizing the time-weighted average density (N) and temp (T) employment action: I = P∙T. evaluation of the physiological intensity was carried out in the relation to the level obtained for 1, which was made value I=0.84 (a comfortable temp T=1; the share of breaks and pauses in work to 0.16, P=0.84). Results. Functional overvoltage in doctors occurs during the working day with the intensity of labor is 1.4-1.5 times higher than the level at which the fatigue they have absent or small. The change in labor productivity (number of admissions, number of bets, etc.) in more than the stated range is only possible due to, changes in the quality of work (saving the physical, mental, emotional effort). Increased physiological labor intensity of doctors is the most common source of the risk to their health. Discussion. The most common causes of stress and fatigue including “volume and intensity of work” and “working hours” characterize the level of labor intensity. The factor of “imbalance of effort and reward” is also associated with the intensity of work and health risk. In the case of physical, visual and mental labor, the acute functional overstrain of the worker occurs at a labor intensity 1.4-1.5 times higher than the level at which he has little or no fatigue. The increase in labor productivity in excess of the specified range is possible only due to behavioral adaptations - saving of physical, visual, mental and emotional efforts spent on the fulfillment of a unit of standardized labor, which is inevitably reflected as a result of the activity of the doctor. Сonclusion. The established quantitative characteristics of the main indices of the workload-the physiological intensity of labor and the length of working time are the starting point for the analysis, prediction and primary prevention of the risk of chronic fatigue and professional burnout of medical workers due to the lack of rest that occurs under working conditions, inadequate recovery ability of the human body.
Introduction. In the structure of the global burden of diseases, back pain ranks first in the world in the list of causes of disability. Neck pain is one of the most common diseases of the musculoskeletal system. An integral part of the strategy for the treatment of acute neck pain is the use of original nonsteroidal anti-inflammatory drugs (NSAIDs) with high proven effectiveness.Objective. To conduct a comparative analysis of the therapeutic efficacy of the original drug meloxicam (Movalis) and its generic (Amelotex) in the treatment of patients with acute nonspecific musculoskeletal pain of cervical localization.Materials and methods. The article provides an assessment of the therapeutic effectiveness of the original drug meloxicam (Movalis) and its generic (Amelotex) in the treatment of patients with acute neck pain. Comparative analysis of the results of treatment of 108 patients hospitalized in the Branch of the MC JSC “Admiralteyskie Verfi” aged 18 to 60 years (58 men and 50 women) with a diagnosis of acute dorsalgia of cervical localization (M54.2 according to ICD-10). The average age of patients is 42.5 ± 11.1 years.Results. As a result of the clinical and neurological study and statistical processing of the data obtained, it was found that the use of Movalis in the treatment of patients with acute neck pain was more effective compared to the use of generic (Amelotex). In the Movalis group, the level of pain intensity and the index of disability after treatment was significantly lower than in the Amelotex group at an equivalent dose of 15 mg per day (p < 0.01). The analgesic effect in the group of patients receiving Movalis was longer. There was a significant decrease in sleep disorders associated with pain syndrome in the group (Movalis) compared with patients of the second group (Amelotex). Conclusions. The absence of therapeutic bioequivalence between Movalis and Amelotex revealed in our study determines the relevance of the choice of drugs for the complex therapy of patients of this profile. A multimodal approach to the strategy of treating neck pain, individually patient-oriented, including the use of effective and safe medicines, physical exercises, manual therapy, is optimal.>< 0.01). The analgesic effect in the group of patients receiving Movalis was longer. There was a significant decrease in sleep disorders associated with pain syndrome in the group (Movalis) compared with patients of the second group (Amelotex).Conclusions. The absence of therapeutic bioequivalence between Movalis and Amelotex revealed in our study determines the relevance of the choice of drugs for the complex therapy of patients of this profile. A multimodal approach to the strategy of treating neck pain, individually patient-oriented, including the use of effective and safe medicines, physical exercises, manual therapy, is optimal.
Study objective — To evaluate how morphological features of intervertebral disc would affect the outcomes of finite element modeling of axial load in the cervical spine, C3-C5, in order to predict the risk of occurrence and course of dorsopathies. Material and Methods — Three-dimensional models of the cervical spine vertebrae were generated from the computed tomography data of a volunteer (24 years old male without detected pathology of his neck). Intervertebral disc models were developed in two configurations. For each model, we performed a finite element investigation of the stress-strain state with the same loading conditions. The load-displacement curves were compared with the experimental data generated from the results of previously conducted in vitro experiments. Results — The maximum and mean displacement values for the isotropic model were 1.15 mm and 0.73 ± 0.45 mm, respectively. For anisotropic model, maximum and mean displacement values were 0.86 mm and 0.47 ± 0.24 mm, correspondingly. Predicted displacement values for both models matched the experimental data fairly well. Stress profiles of intervertebral discs and stress diagrams of facet joints were calculated. Conclusion — The proposed geometric and constitutive configurations of the intervertebral disc take into account specific morphological features at low computational costs, thereby facilitating the modeling of degenerative disc changes.
Introduction. The use of mathematical modeling methods in clinical practice will make it possible to identify the pathogenetic forms of dorsopathies and thus reasonably use the concept of targeted treatment in the management of patients of this category.Aim. To evaluate the possibilities of finite element segmental analysis of the cervical spine for personalized treatment and prediction of the course of dorsopathies.Material and methods. Based on the combined data of computed and magnetic resonance imaging of the patient (female, born in 1951), a model of the C5 – C7 segment was generated, including: vertebrae C5, C6, C7, IVD, anterior and posterior longitudinal ligaments, two pairs of facet joints, spinal cord, nuchal ligament. Computer modeling and finite element method were used to analyze the stress-strain state of the cervical spine of a patient with degenerative-dystrophic changes in the C2 – C7 segments. In the Abaqus/CAE 6.14 software, finite element analysis of the C5 – C7 stress-strain state was carried out in the state of flexion, rotation and compression. The data obtained during compression were compared with previous experiments in silico and in vitro for the norm.Results. For each state, stress and displacement diagrams, load-displacement curves, stress profiles in the MPD were obtained. The axial mobility of the segment under compressive load is two times lower compared to the norm under the same boundary conditions and material models. The degree of involvement of the spinal cord in conflicts with the surrounding anatomical structures was studied. When the model was rotated to the right, conflicts were observed between the spinal cord roots and the bone structures of the vertebrae in the foraminal zones, as well as at the level of the C5 – C6 and C6 – C7 discs with the left posterolateral surfaces of the fibrous rings. When the model was turned to the left, conflicts of the spinal cord were observed in all foraminal zones, as well as at the level of the C6 – C7 disc with the left posterolateral surface of the fibrous rings. Based on the data on stresses in the studied segment, further development of dorsopathies and degenerative changes in the cervical spine was predicted.Conclusions. The use of finite element segmental analysis of the cervical spine creates objective prerequisites for the formation of a combined personalized treatment and prediction of the course of dorsopathies.
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