<strong>Background:</strong> Poor treatment of burns can lead to sepsis and even death. Especially promising is the use of the method of fluorescence spectroscopy for its diagnostics. <strong>The aim...<strong>Background:</strong> Poor treatment of burns can lead to sepsis and even death. Especially promising is the use of the method of fluorescence spectroscopy for its diagnostics. <strong>The aim of the research</strong> is to create a pathogenetic concept as the basis of a diagnostic and treatment model of purulent-inflammatory diseases and sepsis. <strong>Material and methods:</strong> The study lasted from 2001 to 2019 and included 4 stages. The experimental base of luminescent research at all stages was the luminescence laboratory of the Department of Experimental Physics of the Ivan Franko National University of Lviv. The study was performed by using optical monochromators MDR-2 and MDR-12. The excitation of the blood serum was performed with light with a wavelength of 280 nm, which corresponds to the glow region of human serum albumin. <strong>Results: </strong>The main indicators, used for the analysis, were the fluorescence intensity (<em>I</em><sub><em>F</em></sub>) and the position of the maximum fluorescence band (<em>λ</em><sub>max</sub>). The object of the study was samples of the blood serum of patients of the main and control groups. In the case of the presence of endogenous intoxication in the body, albumin binding centers are blocked by the products of bacterial metabolism and therefore such “pathological” albumin is unable to perform its functions, including transport and detoxification. <strong>Conclusions:</strong> The pathogenetic concept as the basis of the diagnostic and treating model of purulent-inflammatory diseases and sepsis was devised. In particular, the important role of albumin solution infusion in the treatment of the above-mentioned diseases was established.展开更多
文摘<strong>Background:</strong> Poor treatment of burns can lead to sepsis and even death. Especially promising is the use of the method of fluorescence spectroscopy for its diagnostics. <strong>The aim of the research</strong> is to create a pathogenetic concept as the basis of a diagnostic and treatment model of purulent-inflammatory diseases and sepsis. <strong>Material and methods:</strong> The study lasted from 2001 to 2019 and included 4 stages. The experimental base of luminescent research at all stages was the luminescence laboratory of the Department of Experimental Physics of the Ivan Franko National University of Lviv. The study was performed by using optical monochromators MDR-2 and MDR-12. The excitation of the blood serum was performed with light with a wavelength of 280 nm, which corresponds to the glow region of human serum albumin. <strong>Results: </strong>The main indicators, used for the analysis, were the fluorescence intensity (<em>I</em><sub><em>F</em></sub>) and the position of the maximum fluorescence band (<em>λ</em><sub>max</sub>). The object of the study was samples of the blood serum of patients of the main and control groups. In the case of the presence of endogenous intoxication in the body, albumin binding centers are blocked by the products of bacterial metabolism and therefore such “pathological” albumin is unable to perform its functions, including transport and detoxification. <strong>Conclusions:</strong> The pathogenetic concept as the basis of the diagnostic and treating model of purulent-inflammatory diseases and sepsis was devised. In particular, the important role of albumin solution infusion in the treatment of the above-mentioned diseases was established.
