Global ETD Search

151	Le récepteur B1 des kinines : cible thérapeutique pour le choc septique dans le diabète Tidjane, Nejla 09 1900 (has links) No description available. Diabète Choc sceptique Récepteur B1 des kinine Streptozotocine Diabetes Kinin B1 receptor Lipopolysaccharides Vascular permeability hyperthermie hyperglycémie oedème perméabilité vasculaire diabetes septic shock hyperthemia hyperglycemia oedema streptozotocin
152	Purification sanguine au cours du choc septique / Blood purification for septic shock Rimmelé, Thomas 23 June 2010 (has links) Le choc septique est la première cause de mortalité en réanimation. Des techniques extracorporelles de purification sanguine sont aujourd’hui proposées pour améliorer le pronostic de cette pathologie. Leur mode d’action est basé sur l’immunomodulation de la réponse inflammatoire systémique de l’hôte, obtenue principalement par épuration nonsélective des médiateurs de l’inflammation. Nous rapportons les résultats de différentes études in vitro, animales et cliniques ayant évalué les techniques de purification sanguine suivantes :hémofiltration à haut débit, hémofiltration en cascade, hémofiltration hautement adsorbante,filtration et adsorption couplée, hémoadsorption, et hémodialyse à haute perméabilité.Ce travail de recherche translationnelle montre que les techniques de purification sanguine sont non seulement capables d’épurer les médiateurs de l’inflammation mais aussi l’endotoxine pour l’hémofiltration hautement adsorbante et l’hémoadsorption. Nous démontrons par ailleurs la faisabilité technique, la sécurité d’application et les intérêts del’hémofiltration en cascade et de l’hémodialyse continue à haute perméabilité. Les effets hémodynamiques bénéfiques des techniques de purification sanguine sont également retrouvés. Pour les années à venir, il conviendra d’optimiser les techniques les plus performantes en tenant compte de leurs avantages et inconvénients respectifs. Sur le planphysiopathologique, l’effet plus direct de ces thérapies sur les leucocytes sera à approfondir. Il semble maintenant admis que convection, diffusion et adsorption ne doivent plus être opposés mais plutôt être considérés comme des mécanismes complémentaires / Septic shock is the main cause of death in the intensive care unit. Extracorporeal blood purification therapies are now being proposed in order to improve septic shock outcomes. These therapies work based on immunomodulation of the host inflammatory response, obtained by non selectively removing inflammatory mediators. We report data from several different studies performed in vitro, in animals and in human beings, assessing various blood purification therapies which include high-volume hemofiltration, cascade hemofiltration, high-adsorption hemofiltration, coupled plasma filtration adsorption, hemoadsorption and high-permeability hemodialysis. This translational research work shows that blood purification therapies are capable of removing not only the inflammatory mediators but also the endotoxins as far as highadsorptionhemofiltration and hemoadsorption are concerned. We demonstrate technical feasibility, safety and advantages of cascade hemofiltration and continuous high-permeability hemodialysis. The beneficial hemodynamic effects related to these blood purification techniques are also highlighted. For future research, optimization of the most efficient techniques is warranted, takinginto account of their respective advantages and drawbacks. Regarding pathophysiology, the direct effect of these therapies on leukocyte function is subject to further investigation. To date, convection, diffusion and adsorption should not be viewed in opposition but rather, seen as complementary mechanisms. Purification sanguine Choc septique Hémofiltration à haut débit Hémofiltration en cascade Hémoadsorption Membranes à haute perméabilité Filtration et adsorption couplée Blood purification Septic shock High volume hemofiltration Cascade hemofiltration Hemoadsorption High permeability membranes Coupled Plasma Filtration Adsorption 612
153	Associação entre o consumo de oxigênio e as alterações na microcirculação de pacientes pediátricos com choque séptico / Association between oxygen consumption and microcirculatory alterations in pediatric patients with septic shock Daniella Mancino da Luz Caixeta 20 June 2015 (has links) Choque séptico é caracterizado por desequilíbrio entre o transporte e o consumo de oxigênio, podendo acarretar hipóxia tecidual. A disfunção microcirculatória, característica cardinal da fisiopatologia do choque séptico, causa má distribuição de fluxo sanguíneo microvascular e, consequentemente, shunt de oxigênio, disóxia tissular e, teoricamente, diminuição no consumo de oxigênio (VO2) pela célula. No presente estudo, foi investigada a associação entre alterações microcirculatórias causadas pela sepse e o consumo de oxigênio em pacientes pediátricos. Dezessete crianças com choque séptico ressuscitadas foram estudadas em quatro momentos durante a internação na unidade de terapia intensiva (dentro de 24, 48 e 72 horas após a admissão ou diagnóstico de choque e após a resolução deste, antes da extubação traqueal). A microcirculação sublingual foi avaliada utilizando o método de imagem Sidestream dark field (SDF) e o VO2 foi calculado através da calorimetria indireta. Outras variáveis hemodinâmicas, como transporte de oxigênio, índice cardíaco, pressão arterial invasiva, lactato arterial e saturação venosa central, foram coletadas. Embora as variáveis hemodinâmicas tenham se mantido em níveis satisfatórios, graves alterações na microcirculação foram visualizadas, especialmente na densidade de vasos pequenos perfundidos (DVPP), na proporção de vasos pequenos perfundidos (PVPP) e no índice de fluxo microvascular (MFI). Foram encontradas assosciações significativas entre o VO2 e os parâmetros da microcirculação: dVO2 e dDVPP (β coefficient= 6,875; p<0,001), dVO2 e dPVPP (β coefficient=92,246; p<0,001) e dVO2 e dMFI (β coefficient=21,213; p<0,001). Não foram encontradas correlações entre as alterações microcirculatórias e as outras variáveis. Em conclusão, este estudo mostrou que pacientes pediátricos com choque séptico apresentaram grave disfunção microvascular e que o fluxo microcirculatório alterado estava associado ao VO2, podendo estar implicado na fisiopatologia da disóxia tecidual da sepse. / Septic shock is characterized by the imbalance between oxygen delivery and consumption leading to tissue hypoxia. Microcirculatory dysfunction, a key element of septic shock pathogenesis, elicits maldistribution of microvascular blood flow and consenquently oxygen shunt, tissue oxygenation debt and, theoretically, impaired oxygen consumption (VO2). In this study, it was investigated if there is an association between microcirculatory changes and VO2 in pediatric patients with septic shock. Seventeen resuscitated patients with septic shock were studied in four moments (within 24hr, 48hr and 72hr of the admission or diagnosis of shock and after its resolution, prior to extubation). Sublingual microcirculation was evaluated using Sidestream dark field (SDF) imaging and VO2 was measured directly by indirect calorimetry. Other hemodynamic variables, like cardiac index, oxygen delivery, invasive arterial pressure, arterial lactate and central venous oxygen saturation were also recorded. Although global hemodynamic variables were within satisfactory ranges, microvascular variables were markedly altered, especially microvascular flow index (MFI), proportion of perfused small vessels (PPV) and perfused small vessel density (PVD). Significant associations between oxygen consumption and microcirculatory parameters were found: dVO2 and dPVD (β coefficient= 6.875; p<0.001), dVO2 and dPPV (β coefficient=92.246; p<0.001) and dVO2 and dMFI (β coefficient=21.213; p<0.001). There was no correlation between microcirculatory alterations and other variables in this study. In conclusion, this study showed that pediatric patients with septic shock presented severe microcirculatory dysfunction and abnormal microvascular blood flow could be associated to oxygen consumption. Microcirculação Choque séptico Consumo de oxigênio Pacientes pediátricos Imagem por Sidestream dark field (SDF) Calorimetria indireta Monitorização de índice cardíaco Microcirculation Septic shock Oxygen consumption Children Sidestream dark field (SDF) imaging Indirect calorimetry Cardiac index monitoring MEDICINA
154	Efeito da ressuscitação tardia na gravidade da sepse, na intensidade do tratamento e na função mitocondrial em um modelo experimental de peritonite fecal / Effect of treatment delay on disease severity and need for resuscitation in porcine fecal peritonitis Thiago Domingos Corrêa 30 September 2013 (has links) Introdução: É provável que o tratamento precoce da sepse grave e do choque séptico possa melhorar o desfecho dos pacientes. Objetivo: O objetivo deste estudo foi avaliar como o atraso no início da ressuscitação da sepse influencia a gravidade da doença, a intensidade das medidas de ressuscitação necessárias para atingir estabilidade hemodinâmica, o desenvolvimento da disfunção orgânica e a função mitocondrial. Métodos: Estudo experimental, prospectivo, randomizado e controlado, realizado em um laboratório experimental de um hospital universitário. Trinta e dois porcos submetidos à anestesia geral e ventilados mecanicamente foram randomizados (8 animais por grupo) em um grupo controle sadio ou para um de três grupos em que induziu-se peritonite fecal (instilação peritoneal de 2,0 g/kg de fezes autólogas) e, após 6 (deltaT-6h), 12 (deltaT-12h) ou 24 (deltaT-24h) horas, iniciou-se um período de 48 horas de ressuscitação protocolada. Resultados: O retardo no início da ressuscitação da sepse foi associada a sinais progressivos de hipovolemia e ao aumento dos níveis plasmáticos de interleucina-6 e do fator de necrose tumoral alfa. O atraso no início do tratamento da sepse resultou em balanço hídrico progressivamente positivo (2,1 ± 0,5 mL/kg/h, 2,8 ± 0,7 mL/kg/h e 3,2 ± 1,5 mL/kg/h, respectivamente, para os grupos deltaT-6h, deltaT-12h, e deltaT-24h, p < 0,01), maior necessidade de administração de noradrenalina durante as 48 horas de ressuscitação (0,02 ± 0,04 mcg/kg/min, 0,06 ± 0,09 mcg/kg/min e 0,13 ± 0,15 mcg/kg/min, p=0,059), redução da capacidade máxima de respiração mitocondrial cerebral dependente do Complexo II (p=0,048) e tendência a aumento da mortalidade (p=0,08). Houve redução do trifosfato de adenosina (ATP) na musculatura esquelética em todos os grupos estudados (p < 0,01), com os valores mais baixos nos grupos deltaT-12h e deltaT-24h. Conclusões: O aumento do tempo entre o início da sepse e o início das manobras de ressuscitação resultou no aumento da gravidade da doença, na maior intensidade das manobras de ressuscitação e na disfunção mitocondrial cerebral associada à sepse. Nossos resultados suportam o conceito da existência de uma janela crítica de oportunidade para ressuscitação da sepse / Introduction: Early treatment in sepsis may improve outcome. Objective: The aim of this study was to evaluate the impact of delays in resuscitation on disease severity, need for resuscitation, and the development of sepsis-associated organ and mitochondrial dysfunction. Methods: Prospective, randomized, controlled experimental study performed at an experimental laboratory in a university hospital. Thirty-two anesthetized and mechanically ventilated pig were randomly assigned (n = 8 per group) to a nonseptic control group or one of three groups in which fecal peritonitis (peritoneal instillation of 2 g/kg autologous feces) was induced, and a 48 hour period of protocolized resuscitation started 6 (deltaT-6 hrs), 12 (deltaT-12 hrs), or 24 (deltaT-24 hrs) hours later. Results: Any delay in starting resuscitation was associated with progressive signs of hypovolemia and increased plasma levels of interleukin-6 and tumor necrosis factor-alfa prior to resuscitation. Delaying resuscitation increased cumulative net fluid balances (2.1 ± 0.5 mL/kg/hr, 2.8 ± 0.7 mL/kg/ hr, and 3.2 ± 1.5 mL/kg/hr, respectively, for groups deltaT-6 h rs, delta T-12 hrs, and ?T-24 hrs; p < 0.01) and norepinephrine requirements during the 48-hr resuscitation protocol (0.02 ± 0.04 mcg/kg/min, 0.06 ± 0.09 mcg /kg/min, and 0.13 ± 0.15 mcg/kg/min; p=0.059), decreased maximal brain mitochondrial Complex II respiration (p=0.048), and tended to increase mortality (p=0.08). Muscle tissue adenosine triphosphate decreased in all groups (p < 0.01), with lowest values at the end in groups deltaT-12 hrs and deltaT-24 hrs. Conclusions: Increasing the delay between sepsis initiation and resuscitation increases disease severity, need for resuscitation, and sepsis-associated brain mitochondrial dysfunction. Our results support the concept of a critical window of opportunity in sepsis resuscitation Choque Choque séptico Citocinas Hemodinâmica Hidratação Insuficiência de múltiplos órgãos Mitocôndrias Modelos animais Norepinefrina Peritonite Ressuscitação Sepse Suínos Vasoconstritores Cytokines Fluid therapy Hemodynamics Mitochondria Models animal Multiple organ failure Norepinephrine Peritonitis Resuscitation Sepsis Septic Shock Shock Swine Vasoconstrictor agents
155	Alarmine S100A9 : de la théorie du danger aux infections nosocomiales après un choc septique : approche clinique et expérimentale / S100A9 alarmin : from danger model to nosocomial infections after septic shock : clinical and experimental approaches Fontaine, Mathieu 01 April 2015 (has links) Le choc septique reste une pathologie grave, associée à des taux de mortalité et d'infections nosocomiales (IN) secondaires élevés. La prédiction du pronostic est de la plus haute importance pour sélectionner les patients qui pourraient bénéficier de traitements visant à moduler la réponse immunitaire. Le système immunitaire, classiquement active par des agents externes, peut également être activé par des médiateurs endogènes exprimés à la suite d'une agression d'origine septique ou non. Les protéines S100 font partie de ces signaux de danger endogènes (ou alarmines). Le but de ce travail est d'évaluer la capacité de l'ARNm de S100A9 mesuré dans le sang total de patients en choc septique à prédire la survie et la survenue d'IN. Nous avons également étudié la régulation de l'expression des ARN messagers de S100A8 et S100A9 dans un modèle ex vivo de tolérance à l'endotoxine qui reproduit partiellement les dysfonctions de l'immunité innée induites par le sepsis. L'ARNm de S100A9 est surexprimé dans le sang des patients en choc septique. Un taux élevé entre le 7eme et le 10eme jour du début du choc septique est associé à la survenue d'IN secondaires. Ex vivo, l'expression des ARNm de S100A8 et S100A9 est augmentée durant le phénomène de tolérance à l'endotoxine. Le blocage de l IL-10 et l'administration d'IFN-γ réduisent l'augmentation de ces ARNm dans ce modèle. Apres confirmation dans des études cliniques, ces résultats préliminaires suggèrent que l'expression des ARNm de S100A8 et S100A9 puisse être utilisée comme marqueur du phénomène de tolérance à l'endotoxine et comme outils pour évaluer la dysfonction immunitaire des patients en choc septique. Ces patients pourraient alors bénéficier de thérapies visant à restaurer leurs fonctions immunitaires / Septic shock remains a serious disease with high mortality and increased risk of hospital-acquired infection. The prediction of outcome is of the utmost importance for selecting patients for therapeutic strategies aiming to modify the immune response. Immune system, typically activated by external agents, can also be activated by endogenous mediators induced by various types of stress (trauma, infection, burns). S100 proteins are part of the alarmins family. The aim of this study was to assess the capability of S100A9 messenger RNA in whole blood from patients with septic shock to predict survival and the occurrence of hospital-acquired infection. We also investigate the regulation of S100A8 and S100A9 mRNA expressions in an ex vivo model of endotoxin tolerance which partially reproduces sepsis-induced innate immune alterations. S100A9 messenger RNA is increased in septic shock and its delayed overexpression is associated with the occurrence of secondary hospital-acquired infection. Ex vivo, S100A8 and S100A9 mRNA expressions are increased during endotoxin tolerance. IL-10 blockade and rIFN-γ treatment partially abrogated S100A8/A9 mRNA increases in this model. Pending confirmation in larger, independent clinical studies, these preliminary results suggest that S100A8 and S100A9 mRNA levels might be used as surrogate markers of endotoxin tolerance and as evaluation tools for immune dysfunctions in septic shock patients. These patients could be selected for therapeutic aiming to restore immune functions Choc septique Infection nosocomiale S100A9 ARNm Marqueur biologique Dysfonction immunitaire Tolérance à l’endotoxine Reprogrammation leucocytaire Septic shock Cross infection Calgranulin B MRNA Biologic marker Immune dysfunction Endotoxin tolerance Leukocyte reprogramming 610
156	Exploration of 1,9-Pyrazoloanthrones as a Copious Reserve for Multifarious Chemical and Biological Applications Prasad, Karothu Durga January 2014 (has links) (PDF) Pyrazoloanthrone and its analogues form the central core of the thesis and the work is focused on the evaluation of chemical and biological applications of pyrazoloanthrones. Selective and sensitive detection of biologically, environmentally and industrially important molecular species such as fluoride, cyanide and picric acid by using pyrazoloanthrones as sensors form the first part while the second part deals with selective and specific kinase inhibition by pyrazoloanthrones to moderate inflammation associated disorders like septic shock. All the investigations are based on extensive crystallographic studies of the participating molecules. Chapter 1 provides a brief review on the history and biological importance of 1,9-pyrazoloanthrones. The potential of these molecules as probes in sensor chemistry and protein kinase inhibition is envisaged. A short account of the techniques employed for the investigations along with a preamble is presented. Chapter 2 is divided into two parts. Part A deals with the design of a colorimetric and “turn-on” fluorescent chemosensor based on 1,9-pyrazoloanthrone specifically for cyanide and fluoride ion detection. A remarkable solid state reaction indicated by the development of intense red color occurs when crystals of tetrabutylammonium cyanide/fluoride are brought in physical contact with 1,9¬pyrazoloanthrone resulting in corresponding molecular complexes (Figure 1). X-ray crystal structures of these complexes and also of 1,9-pyrazoloanthrone have been determined and the ion sensing activity has been substantiated on the basis of spectroscopic (absorption, fluorescence and NMR) and structural analyses. The crystal structure of the parent compound exhibits a disorder as a consequence of tautomerism and the disorder gets carried on to the complexes as well with even the cyanide and the fluoride ions showing partial occupancy sites. The presence of the –NH group and associated intramolecular charge transfer upon complex formation is attributed to the extreme sensitivity of 1,9-pyrazoloanthrone for cyanide and fluoride (detection limits of 0.2 ppb and 2 ppb) ions respectively. Figure 1. Development of intense red color during the solid state reaction (shown on left) and the turn on fluorescence behavior (shown to the right) Part B demonstrates the utilization of electron rich N-alkyl substituted pyrazoloanthrones to design sensors for detecting explosive and electron deficient nitro aromatics such as picric acid (PA). The N-alkyl derivative of 1,9-pyrazoloanthrone has been synthesized, characterized by single crystal X-ray diffraction studies and evaluated as a potent sensor for picric acid. NMR and fluorescence lifetime measurements validate that the fluorescence quenching of sensor compound by PA (Figure 2) as due to the formation of excited state charge-transfer complex resulting in dynamic quenching. Figure 2. Fluorescence quenching measurements demonstrating the dynamic quenching in the charge transfer complex. Chapter 3 deals with the biological evaluation of 1,9-pyrazoloanthrone and its alkyl derivatives towards the inhibition of a decisive protein kinase called c-Jun N-terminal Kinase (JNK), an important member of MAP kinase family. JNK controls crucial cellular processes like apoptosis and cell proliferation and is implicated in disorders associated with inflammation such as septic shock, arthritis, inflammatory bowel disease, etc. Therapeutic inhibition of JNK activity by small molecules has proven to be advantageous in the treatment of diseases coupled with derailed inflammation. In this context, it is already established that 1,9-pyrazoloanthrone (SP600125) effectively and selectively inhibits JNK at concentrations beyond 10 M. A series of alkyl isomers of pyrazoloanthrone derivatives have been synthesized to evaluate the structural implications of inhibition and to elevate both selectivity and sensitivity at lower concentrations. The crystal structures of these isomers have been characterized and their utility as inhibitors has been tested for their in vitro inhibitory activity over c-Jun N-terminal kinase (JNK). The minimum inhibitory concentrations required by these molecules to inhibit JNK was found to be lesser as compared to 1,9-pyrazoloanthrone (<5 µM; Figure 3). Critically, it turns out that among the various inhibitors synthesized, the lead candidates SPP1 and SPB1 display specific inhibition of JNK among other LPS activated MAP kinases like ERK1/2 and p38. These results suggest that N-alkyl (propyl and butyl) bearing pyrazoloanthrone scaffolds provide promising therapeutic inhibitors for JNK in regulating inflammation associated disorders. Figure 3. Inhibition of JNK in macrophages by the SPP1 and SPB1 compared to the known SP600125. Inspired by the results reported in the previous chapter, Chapter 4 is devoted to the generation of a library of compounds based on SPP1 and SPB1 with a purpose to design inhibitors of JNK which perform at the lowest possible concentrations and the consequent evaluation of their potential on endotoxin induced septic shock. Severe sepsis or septic shock is one of the rising causes for mortality worldwide representing nearly 10% of intensive care unit admissions. Susceptibility to sepsis is identified to be mediated by innate pattern recognition receptors and responsive signaling pathways of the host. The c-Jun N-terminal Kinase (JNK)-mediated signaling events play critical role in bacterial infection triggered multi-organ failure, cardiac dysfunction and mortality. Figure 4. Two selected molecules for specific inhibition studies of JNK at lower concentrations. It is demonstrated that alkyl and halogen substitution on the periphery of anthrapyrazolone increases the binding potency of the inhibitors specifically towards JNK. Based on the results from both in vitro with macrophages and in vivo with the mouse model of septicemia, the potential role of two selected molecules D1 and D2 (Figure 4) in regulating endotoxin induced inflammation is firmly established. Further, it is demonstrated that hydrophobic and hydrophilic interactions generated by these small molecules effectively block endotoxin-induced inflammatory genes expression in in vitro and septic shock in vivo, in a mouse model, with remarkable efficacies. Altogether, the in vitro as well as the in vivo data clearly potentiates the selective inhibitory capacity of small molecule inhibitors like D1 and D2 which can facilitate the treatment of current inflammatory disorders when used in combination with the available drugs having varied efficacies. The results rationalize the significance of the diversity oriented synthesis of small molecules for selective inhibition of JNK and their potential in the treatment of severe sepsis. Pyrazoloanthrones Pyrazoloanthrone Anthrapyrazolones C-Jun N-Terminal Kinase (JNK) Protein Kinase Inhibition Cyanide/Fluoride Ion Detection Picric Acid Fluoremetric Chemosensor Septic Shock JNK Signals 1, 9-pyrazoloanthrone Organic Chemistry
157	Étude de la pathogenèse de l’infection et de l’inflammation causées par des souches de Streptococcus suis de différentes origines Auger, Jean-Philippe 09 1900 (has links) No description available. Streptococcus suis Sérotype Type allélique Facteur de virulence Infection systémique Infection du système nerveux central Réponse inflammatoire Choc septique Méningite Modèle murin Serotype Sequence type Virulence factor Systemic infection Central nervous system infection Inflammatory response Septic shock Meningitis Mouse model
158	Prediction of mortality in septic patients with hypotension Mayaud, Louis January 2014 (has links) Sepsis remains the second largest killer in the Intensive Care Unit (ICU), giving rise to a significant economic burden ($17b per annum in the US, 0.3% of the gross domestic product). The aim of the work described in this thesis is to improve the estimation of severity in this population, with a view to improving the allocation of resources. A cohort of 2,143 adult patients with sepsis and hypotension was identified from the MIMIC-II database (v2.26). The implementation of state-of-the-art models confirms the superiority of the APACHE-IV model (AUC=73.3%) for mortality prediction using ICU admission data. Using the same subset of features, state-of-the art machine learning techniques (Support Vector Machines and Random Forests) give equivalent results. More recent mortality prediction models are also implemented and offer an improvement in discriminatory power (AUC=76.16%). A shift from expert-driven selection of variables to objective feature selection techniques using all available covariates leads to a major gain in performance (AUC=80.4%). A framework allowing simultaneous feature selection and parameter pruning is developed, using a genetic algorithm, and this offers similar performance. The model derived from the first 24 hours in the ICU is then compared with a “dynamic” model derived over the same time period, and this leads to a significant improvement in performance (AUC=82.7%). The study is then repeated using data surrounding the hypotensive episode in an attempt to capture the physiological response to hypotension and the effects of treatment. A significant increase in performance (AUC=85.3%) is obtained with the static model incorporating data both before and after the hypotensive episode. The equivalent dynamic model does not demonstrate a statistically significant improvement (AUC=85.6%). Testing on other ICU populations with sepsis is needed to validate the findings of this thesis, but the results presented in it highlight the role that data mining will increasingly play in clinical knowledge generation. 362.1969
159	Cellules suppressives d'origine myéloïde au cours du sepsis / Myeloid-derived suppressor cells in septic patients Uhel, Fabrice 19 May 2016 (has links) Le sepsis est à l’origine d’une dysfonction immunitaire prolongée responsable d’infections nosocomiales et d’une mortalité tardive élevée. Sa physiologie complexe demeure mal connue et il n’existe aucun traitement spécifique en dehors de l’antibiothérapie et des thérapeutiques de suppléance d’organes. Nous nous sommes intéressés au rôle des cellules myéloïdes dans cette dysfonction immunitaire. Nous avons pu montrer qu’il existe chez les patients atteints de sepsis une augmentation du nombre de cellules suppressives d’origine myéloïde monocytaires (M-MDSC) CD14+HLA-DRlow/- et granulocytaires (G-MDSC) identifiées comme des granulocytes de faible densité CD14-CD15+. Ces cellules sont responsables d’une activité Indoléamine 2,3-dioxygénase (IDO) et arginase 1, et leur déplétion permet de restaurer la prolifération des lymphocytes T in vitro. L’augmentation précoce des G-MDSC prédit la survenue ultérieure d’infections nosocomiales. De même, l’augmentation de l’activité IDO et de l’arginase 1 plasmatique sont associées à un mauvais pronostic. Au total, nous avons pu démontrer que les cellules myéloïdes acquièrent un phénotype suppresseur en partie responsable de l’immunodépression acquise et du pronostic péjoratif chez les patients septiques. Afin de restaurer les capacités immunitaires des patients, les MDSC pourraient devenir une future cible thérapeutique. / Sepsis results in a sustained immune dysfunction responsible for poor prognosis and nosocomial infections. Sepsis physiology remains poorly understood and no treatment exists currently, excepted from antibiotherapy and life-support techniques. We asked if myeloid cells could play a role in this sustained immune dysfunction. We demonstrated that Peripheral CD14+HLA-DRlow/- monocytic-myeloid-derived suppressor cells (MDSCs) and CD14-CD15+ low-density granulocytes identified as granulocytic- (G-)MDSCs were increased in septic patients. In vitro, arginase and IDO activities relied on MDSCs and depletion of both subsets restored T-cell proliferation. The initial proportion of G-MDSC predicted occurrence of nosocomial infections. Similarly, high plasma Indoleamine 2,3-dioxygenase (IDO) activity and arginase 1 level were associated with poor outcome. Altogether, our results demonstrate that myeloid cells acquire suppressive functions during sepsis, partially responsible for the sustained immune dysfunction and poor outcome. MDSCs may become a future therapeutic target to restore the immune capacities of septic patients. Sepsis Choc septique Infection Infections nosocomiales Immunologie Monocytes Granulocytes, neutrophiles Immunosuppression Arginase Arginine Tryptophane Lymphome diffus à grandes cellules B Sepsis Septic shock Infections Nosocomial infections Immunology Monocytes Granulocytes Neutrophils Arginase Arginine Tryptophan Diffuse large B cells lymphoma Myeloid-Derived suppressor cells Mdsc.

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