An issue that is often debated in forensic traumatology is the differential diagnosis of hemorrhages into the human brain substance (HBS) of traumatic and non-traumatic genesis. Objectives. This study aims to identify new criteria for objective forensic differentiation of hemorrhages of traumatic origin, cerebral infarction of ischemic and hemorrhagic genesis by using the method of complex degree of mutual anisotropy. For this study native sections of HBS from 125 corpses were used in the case of: death from coronary heart disease - 35 (28%) of native sections (Group 1 - control); hemorrhages of traumatic genesis - 30 (24%) sections (Group 2); ischemic cerebral infarction - 30 (24%) native sections(Group 3); and hemorrhages of non-traumatic genesis - 30 (24%) native sections (Group 4). Results. The statistical moments of the third and fourth orders, which characterize the asymmetry and excess of the complex degree of mutual anisotropy module size distributions, the strength of the method of polarization-correlation microscopy in the differentiation of the samples of the histological sections of the brain of control and experimental groups reached a good level — 87%-90%. Conclusion. The method of complex degree of mutual anisotropy allows differentiating with great precision the genesis of hemorrhage into the substance of the brain.
In the study, 848 school age children were examined. They were divided into 3 groups: the first group consisted of 182 children with arterial hypertension, the second group – 78 children with prehypertension and the control group – 588 children with normal blood pressure level. The physical development of children was assessed according to the generally accepted unified method. The blood pressure level was measured with an automatic tonometer three times, with the calculation of the average value. The results were assessed using percentile tables. Statistical processing of the data obtained was carried using Microsoft Office Excel and Statistica 10.0 programs. When analyzing anthropometric indicators, it was found that the Z-index of the body mass index in children of the first group was significantly higher than that in children with normal blood pressure. There was a difference in the circumference of the waist and hips as compared with children from the second and control groups. Based on the study results an epidemiological analysis of statistical processing was carried out and it was found that overweight and obesity are significant risk factors for the development of arterial hypertension (OR = 3.36; RR = 2.50; specificity = 0.81; sensitivity = 0.43). The results of the correlative and cluster analyses suggest the relationship between physical development indicators and the level of blood pressure in schoolchildren.
The goal – to evaluate the features and diagnostic value of the capillary bedbiomicroscopy results in various pathological conditions.Material and methods. The paper presents data on microcirculation study in patientsof various ages (adults and children) with different somatic pathologies (with diabetesmellitus, arterial hypertension, chronic gastroduodenitis, acute bronchitis) comparedwith healthy persons. The state of microcirculation was recorded using a digital USBmicroscope and evaluated by qualitative and semi quantitative assessment.Results. In patients with diabetes, the most changes in the form of capillariesand venules microaneurism, reduction of the functioning vessels number, slowingblood flow, decrease of arteriolo-venular coefficient were registered. In arterialhypertension, the signs of an increase in peripheral resistance were dominated, andin inflammatory diseases of the gastroduodenal zone and during bronchitis there wasa slowing of blood flow in arterioles and capillaries, an increase in the vascularity ofarterioles and the erythrocytes adhesion inside vessels.Conclusions. Biomicroscopy is simple and informative method for studyingmicrocirculation both chronic and acute diseases, the volume and nature of violationspredominantly depends on the type of pathology, its severity and duration.
Differential diagnosis of intracerebral hemorrhage due to traumatic and non-traumatic origin is a challenging issue, especially in the absence of visible body injuries and other signs of violence. For a forensic expert-practitioner, the main thing is objectivity, accuracy, and speed of obtaining the result, which could fully satisfy the methods of laser polarimetry in the case of differential diagnosis of hemorrhages of traumatic and non-traumatic origin in the human brain matter. The purpose: To develop forensic criteria for the differential diagnosis of intracerebral hemorrhage of traumatic and non-traumatic origin using Mueller-matrix microscopy of linear dichroism. Materials and methods: The object of the study was brain matter samples, collected in 115 corpses of both sexes aged 22 to 86 years with accurately known causes of death. The causes of death included coronary artery disease, traumatic brain hemorrhage, ischemic brain infarction, and non-traumatic brain hemorrhages. Brain matter samples have been frozen rapidly, and histological sections have been made using a freezing microtome. The slices have been evaluated using the method of azimuthal-invariant Mueller-matrix microscopy, followed by mathematical and statistical processing of the results. Results: significant topographic heterogeneity of Mueller-matrix invariants of brain matter samples linear dichroism maps among all research groups have been found. Individual and significant variations of dispersion, asymmetry, and kurtosis magnitude have confirmed the heterogeneity of Mueller-matrix invariants. The difference of images and histograms among groups is explained by the presence of necrotic changes in the case of ischemic brain necrosis and blood cells in the brain matter samples. For the set of central statistical moments of the 1st, 3rd, and 4th orders, which characterize the distributions of circular dichroism, the method of MM-microscopy in the differentiation of samples of non-hemorrhage and hemorrhage groups reaches a satisfactory level - 78% - 84%. Conclusions: Brain matter samples Muller-matrix microscopy of linear dichroism is effective for solving diagnostic problems of forensic medicine related to evaluating the cause of death from intracerebral hemorrhage of various origins. Diagnostic efficiency of Mueller-matrix mapping of polarization manifestations of linear dichroism method for intergroup differentiation of samples of deaths from traumatic hemorrhage (Group 2) and ischemic cerebral infarction (Group 3) reaches a satisfactory level of 79 - 84%.
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