Global ETD Search

841	Papel da enzima indoleamina 2,3-dioxigenase (IDO) na imunossupressão induzida pela sepse / Role of enzyme Indoleamine 2, 3-dioxygenase (IDO) in the development of sepsis-induced immunosuppression Ferreira, Raphael Gomes 26 October 2016 (has links) Em alguns casos, pacientes que sobreviveram a uma sepse grave podem desenvolver um quadro de imunossupressão, caracterizado pela expansão dos linfócitos T reguladores (Tregs). Porém, apesar de inúmeros avanços, os mecanismos associados à expansão das Tregs, ainda não estão completamente esclarecidos. Nesse sentido, trabalhos recentes demonstraram que a atividade da enzima Indoleamina 2,3-Dioxigenase (IDO), responsável pela formação da quinurenina a partir da degradação do aminoácido essencial triptofano, está relacionada à diferenciação das Tregs e com o desenvolvimento de um quadro de tolerância. Dessa forma, o objetivo deste estudo foi investigar o papel da IDO no desenvolvimento da imunossupressão induzida pela sepse. Os resultados demonstraram um aumento da expressão proteica e da atividade enzimática da IDO no baço de camundongos que sobreviveram à sepse grave. Para avaliar o desenvolvimento da imunossupressão, os camundongos foram desafiados com células do melanoma B16-F10. A inibição farmacológica da IDO promoveu redução do crescimento tumoral nos camundongos que sobreviveram à sepse, por um mecanismo dependente da redução na diferenciação das Tregs e das células C11b+ Ly6G+ no baço e da ativação de células CD8+ produtoras de IFN- ?, no linfonodo drenate da região tumoral. Adicionalmente, foi demonstrado que, o receptor de hidrocarbonetos de arila (AhR) está associado ao aumento da expressão da IDO, nos camundongos que sobreviveram à sepse. Ainda, os resultados demonstraram que células CD11C+ são as principais responsáveis por expressar a IDO no baço de camundongos que sobreviveram à sepse. Por fim, células CD11C+ isoladas do baço de camundongos que sobreviveram a sepse, foram mais efetivas em induzir a diferenciação das Tregs quando comparadas a células CD11C+ provenientes de camundongos naive. Em conjunto, os resultados sugerem que a ativação do AhR pela quinurenina é importante para expressão da IDO nas células CD11C+ encontradas no baço de camundongos que sobreviveram à sepse, o que por sua vez, está associado com a expansão das Tregs e com o desenvolvimento do quadro de imunossupressão. / Immunosuppression has been shown to be one long-term sequels of severe sepsis, which is mainly characterized by the expansion of regulatory T cells (Tregs). However, the mechanisms underlying Tregs expansion after sepsis remain poor understood. Indoleamine 2,3-dioxygenase (IDO), an enzyme that initiates the kynurenine pathway of tryptophan degradation, has been implicated in promoting Tregs generation. Therefore, we propose to investigate the role of IDO in the development of sepsis-induced immunosuppression. The results presented here demonstrated that there is an increase in both IDO protein expression and IDO enzymatic activity in spleen of sepsis-surviving mice. Employing a melanoma mouse model as a second challenge in sepsis-surviving mice, we found that pharmacological inhibition of IDO suppressed the enhanced tumor growth observed in sepsis-surviving mice. Importantly, inhibition of IDO decreased the expansion of Tregs in sepsis-surviving mice, leading to reduced CD11b+ Ly6G+ cells frequency in spleen and activation of INF-? production by CD8+ in draining lymph, after tumor challenge. Moreover, the results suggest that aryl hydrocarbon receptor (AhR) is associated with increased IDO expression found in sepsis-surviving mice. Furthermore, we identified that a CD11C+ population of cells are expressing IDO in spleen of sepsis surviving mice. In addition, CD11C+ cells isolated from spleen of sepsis-surviving mice, presented a higher capacity to induce a regulatory phenotype in naïve CD4+ CD25- T than CD11C+ isolated from naïve mice. Taken together, our results suggest that AhR activation by kynurenine during acute phase of sepsis is important to IDO expression in a specific CD11C+. This new sepsis-induced CD11C+ IDO+ population is important to Treg cells expansion and immunosuppression development in sepsis-surviving mice. AhR AhR CD11C CD11C Células T reguladoras Imunossupressão Indoleamina 2,3- dioxigenase (IDO) Regulatory T cells Sepse Sepsis
842	Endothelial HSPA12B is a Novel Protein for the Preservation of Cardiovascular Function in Polymicrobial Sepsis via Exosome MiR-126 Zhang, Xia 01 August 2016 (has links) Sepsis is the most frequent cause of mortality in most intensive care units. Cardiovascular dysfunction is a major complication associated with sepsis, with high mortality rates up to 70%. Currently, there is no effective treatment approach for sepsis. The integrity of the endothelium is fundamental for the homeostasis of the cardiovascular system. Sepsis induces endothelial cell injury which is the key factor for multiple organ failure. The increased expression of adhesion molecules and chemokines in endothelial cell promotes leukocytes infiltration into the tissue. The loss of tight junction proteins and increased permeability of the endothelial cells will provoke tissue hypoxia and subsequent organ failure. Therefore, preservation of endothelial function is a critical approach for improving sepsis-induced outcome. Here, we showed that endothelial specific protein HSPA12B plays a critical role in the preservation of cardiovascular function in polymicrobial sepsis. HSPA12B is the newest member of HSP70 family which predominantly expresses in endothelial cells. We observed that HSPA12B deficiency (HSPA12B-/-) exaggerated polymicrobial sepsis-induced endothelial dysfunction, leading to worse cardiac dysfunction. HSPA12B-/- significantly increases the expression of adhesion molecules, decreases tight junction protein levels and enhances vascular permeability. HSPA12B-/- alsomarkedly promotes the infiltration of inflammatory cells into the myocardium and inflammatory cytokine production. We investigated the cardioprotective mechanisms of HSPA12B in sepsis induced cardiovascular dysfunction. Exosomes play a critical role in intercellular communication. Exosome is a natural vehicle of microRNAs. We found that exosomes isolated from HSPA12B-/- septic mice induced more expression of adhesion molecules in endothelial cells and inflammation in macrophages. Interestingly, the levels of miR-126 in serum exosomes isolated from HSPA12B-/- septic mice were significantly lowers than in WT septic mice. Importantly, delivery of miR-126 carried exosomes significantly improved cardiac function, suppressed the expression of adhesion molecules, reduced immune cell infiltration in the myocardium, and improved vascular permeability in HSPA12B-/- septic mice. The data suggests that HSPA12B is essential for endothelial function in sepsis and that miR-126 containing exosomes plays a critical role in cardiovascular-protective mechanisms of endothelial HSPA12B in polymicrobial sepsis. sepsis endothelial cell heat shock protein exosome microRNA cardiac function Bacterial Infections and Mycoses Cardiovascular Diseases Cell Biology Disease Modeling Immunology and Infectious Disease Immunology of Infectious Disease
843	PYOCYANIN, A VIRULENCE FACTOR PRODUCED BY SEPSIS-CAUSING PSEUDOMONAS AERUGINOSA, PROMOTES ADIPOSE WASTING AND CACHEXIA Larian, Nika 01 January 2019 (has links) Sepsis is a leading cause of death among critically ill patients that results in metabolic alterations including hypercatabolism, lipoatrophy, and muscle wasting, contributing to the development of cachexia. Septic cachexia is associated with loss of body weight, fat mass, and lean mass and dysregulated immune function. There are currently no efficacious treatment strategies for septic cachexia, and nutritional interventions have limited success in preventing hypercatabolic wasting. Pyocyanin is a virulence factor produced by sepsis-causing Pseudomonas aeruginosa that has been shown to activate the aryl hydrocarbon receptor (AhR), increase inflammation, and produce reactive oxygen species. Thus, pyocyanin represents a novel mechanistic target in the development of septic cachexia. In Aim 1, we hypothesized that pyocyanin reduces adipocyte differentiation and activates AhR in vitro and in vivo. In vitro, pyocyanin reduced differentiation of 3T3-L1 cells to adipocytes and promoted expression of proinflammatory cytokines. These effects were associated with activation of AhR. We established an in vivo model of pyocyanin-induced cachexia using repeat intraperitoneal exposure to pyocyanin in male and female C57BL/6J mice. Acutely, pyocyanin reduced differentiation of stem cells isolated from adipose stromal vascular tissue and augmented expression of proinflammatory cytokines. Chronically, pyocyanin reduced body weight and fat mass, which was associated with adipose-specific AhR activation. Pyocyanin had sexually dimorphic effects on lipolysis and adipocyte inflammation. These data suggest a role of pyocyanin in adipose cachexia associated with sepsis. In Aim 2, we hypothesized that pyocyanin activates adipocyte AhR to promote adipose tissue wasting and cachexia. To test this hypothesis, we used a mouse model of adipocyte-specific deficiency of AhR and chronically administered pyocyanin to male and female mice. In male mice with adipocyte AhR deficiency, effects of pyocyanin to promote adipose wasting and cachexia were attenuated. In contrast, female adipocyte AhR deficient mice had an augmented response to pyocyanin to decrease body weight. Results suggest divergent mechanisms of pyocyanin to regulate adiposity and body weight through adipocyte AhR between male and female mice. These data support a role for pyocyanin in the development of adipose cachexia associated with Pseudomonas aeruginosa sepsis that is partially regulated by adipocyte AhR. Targeting pyocyanin’s effects on adipocytes represents a potentially novel therapeutic approach for septic cachexia that could mitigate septic cachexia, a condition associated with increased risk of mortality in this population. Pyocyanin Sepsis Cachexia Aryl Hydrocarbon Receptor Adipocyte Pseudomonas aeruginosa Bacteria Immunopathology Microbiology Nutritional and Metabolic Diseases
844	Antibiotic-induced Bacterial Toxin Release – Inhibition by Protein Synthesis Inhibitors Hjerdt-Goscinski, Gunilla January 2004 (has links) <p>Toxic products, such as endotoxin from the gram-negative and exotoxin from the gram-positive bacteria, are the most important initiators of the inflammatory host response in sepsis. In addition to antibacterial treatment, numerous attempts have been made to interfere with the exaggerated proinflammatory cascade initiated by the toxins. As most antitoxic and anti-inflammatory agents have shown no clear efficacy, an attractive alternative has been to prevent or minimise their release. Therefore, it was of interest to further study the antibiotic-induced release of toxins after exposure to antibiotics used for the treatment of the most severe infections, especially if protein synthesis inhibitors could reduce the release induced by PBP 3-specific β-lactam antibiotics.</p><p>There were significant reductions in endotoxin release from gram-negative bacteria when the combination of the PBP 3-specific β-lactam antibiotic, cefuroxime, and the protein synthesis inhibitor, tobramycin, was compared with cefuroxime alone. Increasing doses of tobramycin reduced endotoxin release and increased the killing rate. In a kinetic <i>in vitro</i> model the endotoxin release from <i>E.coli</i> was higher after the second dose of cefuroxime. Nevertheless, it was reduced after addition of tobramycin.</p><p>No binding of tobramycin to endotoxin was observed, either <i>in vivo</i> or <i>in vitro</i>. In a porcine sepsis model, a possible anti-inflammatory effect of ceftazidime and tobramycin, expressed as late cytokine inhibition, was seen.</p><p>The protein synthesis inhibitor, clindamycin, released less streptococcal pyrogenic exotoxin A (SpeA) from a group A streptococcus strain than penicillin, and addition of clindamycin to penicillin resulted in less toxin production than penicillin alone. The SpeA production was dependent on the bacterial number at the start of treatment. Higher doses of penicillin also led to less SpeA. </p><p>The choice of antibiotic class and dose may be important in the severely ill septic patient in whom an additional toxin release could be deleterious. A combination of a β-lactam antibiotic and a protein synthesis inhibitor seems beneficial but further investigations are needed.</p> Communicable diseases Endotoxin LPS exotoxin SpeA penicillin-binding protein aminoglycosides clindamycin β-lactam antibiotics severe sepsis septic shock Infektionssjukdomar Infectious diseases Infektionssjukdomar
845	C5a Receptor Expression in Severe Sepsis and Septic Shock Furebring, Mia January 2005 (has links) <p>In patients with sepsis, the activation of the cascade systems, for example the complement system with the generation of C5a, is followed by a state of immunosuppression with impaired bactericidal capacity caused by suppression of the neutrophil granulocytes. To inhibit the C5a-induced systemic inflammatory and the following anti-inflammatory responses, different anti-C5a strategies have been successful in experimental models of sepsis. In animals and in healthy volunteers after injection of lipopolysaccharide (LPS), an up-regulation of the C5a receptor (C5aR) has been reported. Before designing clinical studies, it was of importance to increase the knowledge of C5a and C5aR regulation in humans. </p><p>At the time when the diagnosis of severe sepsis or septic shock can be established clinically, granulocyte C5aR expression, analysed by flow cytometer, was shown to be reduced, whereas monocyte C5aR expression was unchanged. There was a correlation between granulocyte C5aR expression and the severity of disease, as measured by the APACHE II score. </p><p><i>Ex vivo</i> incubation of whole blood with LPS resulted in a reduction in granulocyte C5aR expression. Such a reduction was not found in isolated cells, indicating that the effect was mediated via plasma factors, such as C5a, IL-8 and TNF-α which all were shown to reduce C5aR expression <i>ex vivo</i>.</p><p>Although there was a trend between chemotaxis, as measured by migration in a modified Boyden chamber, and C5aR expression on granulocytes from patients with severe sepsis or septic shock or from healthy individuals, the correlation failed to reach statistical significance.</p><p>It is concluded that granulocyte C5aR expression is affected by several plasma factors and that a reduction is clinically evident at the time of the sepsis diagnosis. Reduced granulocyte C5aR expression is associated with an impaired chemotaxis but does not alone limit the chemotactic response.</p> Communicable diseases C5a receptor granulocyte severe sepsis septic shock chemotaxis anti-C5a treatment ex vivo incubation C5a interleukin-8 LPS Infektionssjukdomar Infectious diseases Infektionssjukdomar
846	Antibiotic-induced Bacterial Toxin Release – Inhibition by Protein Synthesis Inhibitors Hjerdt-Goscinski, Gunilla January 2004 (has links) Toxic products, such as endotoxin from the gram-negative and exotoxin from the gram-positive bacteria, are the most important initiators of the inflammatory host response in sepsis. In addition to antibacterial treatment, numerous attempts have been made to interfere with the exaggerated proinflammatory cascade initiated by the toxins. As most antitoxic and anti-inflammatory agents have shown no clear efficacy, an attractive alternative has been to prevent or minimise their release. Therefore, it was of interest to further study the antibiotic-induced release of toxins after exposure to antibiotics used for the treatment of the most severe infections, especially if protein synthesis inhibitors could reduce the release induced by PBP 3-specific β-lactam antibiotics. There were significant reductions in endotoxin release from gram-negative bacteria when the combination of the PBP 3-specific β-lactam antibiotic, cefuroxime, and the protein synthesis inhibitor, tobramycin, was compared with cefuroxime alone. Increasing doses of tobramycin reduced endotoxin release and increased the killing rate. In a kinetic in vitro model the endotoxin release from E.coli was higher after the second dose of cefuroxime. Nevertheless, it was reduced after addition of tobramycin. No binding of tobramycin to endotoxin was observed, either in vivo or in vitro. In a porcine sepsis model, a possible anti-inflammatory effect of ceftazidime and tobramycin, expressed as late cytokine inhibition, was seen. The protein synthesis inhibitor, clindamycin, released less streptococcal pyrogenic exotoxin A (SpeA) from a group A streptococcus strain than penicillin, and addition of clindamycin to penicillin resulted in less toxin production than penicillin alone. The SpeA production was dependent on the bacterial number at the start of treatment. Higher doses of penicillin also led to less SpeA. The choice of antibiotic class and dose may be important in the severely ill septic patient in whom an additional toxin release could be deleterious. A combination of a β-lactam antibiotic and a protein synthesis inhibitor seems beneficial but further investigations are needed. Communicable diseases Endotoxin LPS exotoxin SpeA penicillin-binding protein aminoglycosides clindamycin β-lactam antibiotics severe sepsis septic shock Infektionssjukdomar Infectious diseases Infektionssjukdomar
847	C5a Receptor Expression in Severe Sepsis and Septic Shock Furebring, Mia January 2005 (has links) In patients with sepsis, the activation of the cascade systems, for example the complement system with the generation of C5a, is followed by a state of immunosuppression with impaired bactericidal capacity caused by suppression of the neutrophil granulocytes. To inhibit the C5a-induced systemic inflammatory and the following anti-inflammatory responses, different anti-C5a strategies have been successful in experimental models of sepsis. In animals and in healthy volunteers after injection of lipopolysaccharide (LPS), an up-regulation of the C5a receptor (C5aR) has been reported. Before designing clinical studies, it was of importance to increase the knowledge of C5a and C5aR regulation in humans. At the time when the diagnosis of severe sepsis or septic shock can be established clinically, granulocyte C5aR expression, analysed by flow cytometer, was shown to be reduced, whereas monocyte C5aR expression was unchanged. There was a correlation between granulocyte C5aR expression and the severity of disease, as measured by the APACHE II score. Ex vivo incubation of whole blood with LPS resulted in a reduction in granulocyte C5aR expression. Such a reduction was not found in isolated cells, indicating that the effect was mediated via plasma factors, such as C5a, IL-8 and TNF-α which all were shown to reduce C5aR expression ex vivo. Although there was a trend between chemotaxis, as measured by migration in a modified Boyden chamber, and C5aR expression on granulocytes from patients with severe sepsis or septic shock or from healthy individuals, the correlation failed to reach statistical significance. It is concluded that granulocyte C5aR expression is affected by several plasma factors and that a reduction is clinically evident at the time of the sepsis diagnosis. Reduced granulocyte C5aR expression is associated with an impaired chemotaxis but does not alone limit the chemotactic response. Communicable diseases C5a receptor granulocyte severe sepsis septic shock chemotaxis anti-C5a treatment ex vivo incubation C5a interleukin-8 LPS Infektionssjukdomar Infectious diseases Infektionssjukdomar
848	Assessment of the Effect of Induced Hypothermia in Experimental Sepsis Using a Cecal Ligation and Perforation Mouse Model Luo, Karen Yao 25 July 2011 (has links) Sepsis-induced organ failure is associated with high morbidity and mortality rates. The onset of an exaggerated host response to microbial invasion and/or trauma, is believed to be the primary cause of excessive inflammation and the subsequent tissue hypoperfusion observed in patients with severe sepsis. In our mouse model of sepsis induced by cecal ligation and perforation (CLP), symptoms indicative of the disease, including diarrhea, increased ventilation and persistent hypothermia, are present at six hours after the surgery (T6). In the untreated CLP mice, mortality occurs starting at T15. As induced hypothermia has shown to exert immunomodulatory effects, this study is aimed at assessing its potential in attenuating inflammation and improving survival in experimental sepsis. Our data has shown that deep hypothermia initiated at T6, by means of cold chamber-induced cooling, prolongs survival. Plasma cytokine quantification by enzyme-linked immunosorbent assays (ELISA) also reveals that induced deep hypothermia reduces tumour necrosis factor(TNF)-α and interleukin (IL)-6 production in untreated CLP mice. In contrast, induced moderate hypothermia does not have such effect. Antibiotic (cefotaxime) and saline resuscitation initiated immediately following CLP ensures survival. However, when these supportive treatments are initiated at T6, >50% mortality is observed in the CLP mice with or without induced hypothermia. In summary, this preliminary study provides proof for a downregulated inflammatory response mediated by external cooling. However, to achieve a survival benefit, treatment strategies in addition to cooling and antibiotics may be required. sepsis cecal ligation and perforation (CLP) bacterial infection bacteremia peritonitis systemic inflammatory response syndrome Induced Hypothermia external cooling whole-body cooling animal model
849	Assessment of the Effect of Induced Hypothermia in Experimental Sepsis Using a Cecal Ligation and Perforation Mouse Model Luo, Karen Yao 25 July 2011 (has links) Sepsis-induced organ failure is associated with high morbidity and mortality rates. The onset of an exaggerated host response to microbial invasion and/or trauma, is believed to be the primary cause of excessive inflammation and the subsequent tissue hypoperfusion observed in patients with severe sepsis. In our mouse model of sepsis induced by cecal ligation and perforation (CLP), symptoms indicative of the disease, including diarrhea, increased ventilation and persistent hypothermia, are present at six hours after the surgery (T6). In the untreated CLP mice, mortality occurs starting at T15. As induced hypothermia has shown to exert immunomodulatory effects, this study is aimed at assessing its potential in attenuating inflammation and improving survival in experimental sepsis. Our data has shown that deep hypothermia initiated at T6, by means of cold chamber-induced cooling, prolongs survival. Plasma cytokine quantification by enzyme-linked immunosorbent assays (ELISA) also reveals that induced deep hypothermia reduces tumour necrosis factor(TNF)-α and interleukin (IL)-6 production in untreated CLP mice. In contrast, induced moderate hypothermia does not have such effect. Antibiotic (cefotaxime) and saline resuscitation initiated immediately following CLP ensures survival. However, when these supportive treatments are initiated at T6, >50% mortality is observed in the CLP mice with or without induced hypothermia. In summary, this preliminary study provides proof for a downregulated inflammatory response mediated by external cooling. However, to achieve a survival benefit, treatment strategies in addition to cooling and antibiotics may be required. sepsis cecal ligation and perforation (CLP) bacterial infection bacteremia peritonitis systemic inflammatory response syndrome Induced Hypothermia external cooling whole-body cooling animal model
850	Η επίδραση της διαβητικής κετοξέωσης στο ανοσολογικό σύστημα. / Diabetic ketoacidosis and immune responses. Γιαλή, Σοφία 26 June 2007 (has links) Σκοπός. Η διαβητική κετοξέωση (ΔΚ) και η υπεργλυκαιμική υπερωσμωτική κατάσταση (ΥΥΚ) είναι δύο από τις πιο σοβαρές οξείες επιπλοκές του Σακχαρώδη διαβήτη, που εξακολουθούν να αποτελούν σημαντική αιτία νοσηρότητας και θνητότητας μεταξύ των διαβητικών. Οι λοιμώξεις, συχνός εκλυτικός παράγων και επιπλοκή της ΔΚ και ΥΥΚ, αποτελούν την κύρια αιτία θανάτου και η έγκαιρη διάγνωση και αντιμετώπιση της σήψης είναι κριτικής σημασίας για την επιβίωση των ασθενών. Διερευνήσαμε την επίδραση των ανωτέρω καταστάσεων στην ανοσοποιητική απόκριση, μελετώντας τους υποπληθυσμούς των Τ λεμφοκυττάρων – παραμέτρους οξείας φάσης και την ιντερλευκίνη 6 (IL-6) στο περιφερικό αίμα των ασθενών μας, σε μια προσπάθεια να διαπιστώσουμε τυχόν υποκείμενες διαταραχές και να προσδιορίσουμε πιθανόν διαγνωστικούς και προγνωστικούς δείκτες για τη σήψη. Μέθοδος. Η μελέτη μας περιέλαβε 61 διαβητικούς ασθενείς με ΔΚ ή ΥΥΚ. Ξεχωρίσαμε μια ομάδα ασθενών που είχαν συμπτώματα Συνδρόμου συστηματικής φλεγμονώδους αντίδρασης (SIRS). Προσδιορίσαμε στον ορό όλων των ασθενών τις συγκεντρώσεις των παραγόντων οξείας φάσης (συμπεριλαμβανομένης της C αντιδρώσας πρωτεΐνης ,CRP) και της IL-6 (ως κύρια κυτταροκίνη για την παραγωγή πρωτεϊνών οξείας φάσης), κατά την εισαγωγή και στην ύφεση (μετά τη βελτίωση των συμπτωμάτων και σε κατάσταση ευγλυκαιμίας). Σε μια ομάδα 28 ασθενών με ΔΚ ή ΥΥΚ (σε σύγκριση και με αντίστοιχη ομάδα ελέγχου) μελετήσαμε επιπλέον υποπληθυσμούς των Τ λεμφοκυττάρων, τα ολικά (CD3) / τα βοηθητικά (CD4) / τα κατασταλτικά (CD8) Τ κύτταρα και τα κύτταρα φυσικοί φονείς (ΝΚ) χρησιμοποιώντας μονοκλωνικά αντισώματα και μικροσκόπιο ανοσοφθορισμού, προ και αμέσως μετά τη διόρθωση της μεταβολικής διαταραχής. Αποτελέσματα. Παρατηρήσαμε ότι οι υποπληθυσμοί των Τ λεμφοκυττάρων ήταν σημαντικά ελαττωμένοι κατά την εισαγωγή, συγκρινόμενοι με τους υγιείς μάρτυρες (ενώ οι περισσότερες μελέτες διαβητικών τύπου 1 καταγράφουν αυξημένα βοηθητικά Τ κύτταρα) και παρέμειναν και αμέσως μετά τη διόρθωση της μεταβολικής διαταραχής. Οι ασθενείς που τελικά απεβίωσαν είχαν σημαντικά ελαττωμένους τους υποπληθυσμούς των Τ λεμφοκυττάρων (εκτός των ΝΚ κυττάρων) συγκρινόμενοι και με τους υγιείς μάρτυρες και με όσους ασθενείς επιβίωσαν. Από τους 61 ασθενείς της μελέτης με ΔΚ ή ΥΥΚ, οι 49 ασθενείς είχαν συμπτώματα SIRS. Οι 27 ασθενείς είχαν SIRS χωρίς στοιχεία λοίμωξης, ενώ οι 22 ασθενείς είχαν SIRS με αποδεδειγμένη λοίμωξη. Διαπιστώσαμε σημαντικά αυξημένες συγκεντρώσεις CRP και IL-6 στον ορό των σηπτικών διαβητικών ασθενών συγκριτικά με όσους ασθενείς μας είχαν SIRS χωρίς λοίμωξη. Οι ασθενείς που τελικά απεβίωσαν είχαν σημαντικά πιο αυξημένες συγκεντρώσεις CRP και IL-6 κατά την εισαγωγή, που μειώθηκαν σημαντικά στην ύφεση. Συμπεράσματα. Η διαβητική κετοξέωση και η υπεργλυκαιμική υπερωσμωτική κατάσταση προκαλούν συχνά κλινικό σύνδρομο που ομοιάζει με σύνδρομο συστηματικής φλεγμονώδους αντίδρασης. Διαταραχές στην ισορροπία των υποπληθυσμών των Τ λεμφοκυττάρων, κυρίως η ελάττωση των βοηθητικών Τ κυττάρων μπορεί να συμβάλλουν στην υψηλή θνησιμότητα αυτών των μεταβολικών διαταραχών. Οι μετρήσεις των συγκεντρώσεων C αντιδρώσας πρωτεΐνης και ιντερλευκίνης 6 στον ορό αυτής της ομάδας των διαβητικών ασθενών, είναι ένας χρήσιμος τρόπος αποκλεισμού λοίμωξης και επιβεβαίωσης και παρακολούθησης της σήψης. / Aims / hypothesis. Diabetic ketoacidosis (DKA) and hyperglycemic hyperosmolar state (HHS) are two of the most serious acute complications of diabetes mellitus, being important causes of morbidity and mortality among patients with diabetes. Infection is a common precipitating event in DKA and HHS and the major cause of death. An early diagnosis of sepsis in patients with DKA and HHS is crucial and life saving. We studied the immune responses in these states, investigating the peripheral T lymphocyte subsets, acute phase reactants and interleukin 6 (IL-6) to find out how useful these might be for identifying sepsis. Methods. Sixty one diabetic patients with DKA or HHS were enrolled. Patients with signs and symptoms of systemic inflammatory response syndrome (SIRS) were identified. Acute phase reactants, including serum C-reactive protein (CRP) and IL-6, the main cytokine responsible for the induction of acute phase proteins, were measured (concentrations in peripheral blood) on admission and when patients were clinically improved and were euglycaemic. Peripheral T lymphocyte subsets including total (CD3), helper (CD4) and suppressor (CD8) T cells and natural killer (NK) cells, were studied in twenty one patients with DKA plus seven patients with HHS and twenty eight healthy matched control (using monoclonal antibodies), prior to and after treatment of metabolic disorders. Results. Peripheral T lymphocyte subsets were decreased in the twenty eight patients with DKA and HHS in admission compared to healthy controls (while helper T cells are mostly increased in diabetics type 1), and remained so after treatment of metabolic disorders. Patients who finally died had significantly decreased T lymphocyte subsets (except NK cells) compared with both healthy controls and patients who survived. A total of forty nine out of sixty one patients with DKA and HHS had signs of SIRS. Twenty seven patients had SIRS and no signs of infection and twenty two patients had SIRS due to proven infection. We detected a significant increase in serum CRP and IL-6 values in patients infected compared to patients with no septic SIRS. Patients who finally died had much higher levels of these proteins, while there was a prompt reduction of serum CRP and IL-6 early during remission. Conclusion / interpretation. Diabetic ketoacidosis and hyperglycemic hyperosmolar state can often cause a clinical syndrome resembling systemic inflammatory response syndrome. An imbalance of subpopulations of T lymphocytes, especially decreased helper T cells (CD4), may be correlated with the high morbidity and mortality in these states. Determination of serum C-reactive protein and interleukin-6 is a useful way of early excluding an underlying infection as well as confirming and monitoring sepsis. Σακχαρώδης διαβήτης Κετοξέωση Υπερώσμωση Σήψη C-αντιδρώσα πρωτεΐνη Ιντερλευκίνη-6 616.462 Diabetes mellitus Ketoacidosis Sepsis T-lymphocyte subsets CRP Hyperosmosis IL-6

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