Global ETD Search

851	Diagnosis of Systemic Inflammation Using Transendothelial Electrical Resistance and Low-Temperature Co-fired Ceramic Materials Mercke, William L 01 January 2013 (has links) Systemic inflammation involves a complex array of cytokines that can result in organ dysfunction. Mortality remains high despite the vast amount of research conducted to find an effective biomarker. The cause of systemic inflammation can be broad and non-specific; therefore, this research investigates using transendothelial electrical resistance (TEER) measurements to better define systemic inflammatory response syndrome (SIRS)/sepsis within a patient. Results show a difference in TEER measurements between healthy individuals and SIRS-rated patients. This research also displays correlations between TEER measurements and biomarkers currently studied with systemic inflammation (tumor necrosis factor-α, C- reactive protein, procalcitonin). Furthermore, this research also presents the groundwork for developing a microfluidic cell-based biosensor using low temperature co-fired ceramic materials. An LTCC TEER-based microfluidic device has the potential to aid in a more effective treatment strategy for patients and potentially save lives. Transendothelial Electrical Resistance Sepsis Systemic Inflammatory Response Syndrome Low-Temperature Co-fired Ceramics Diagnosis Biology and Biomimetic Materials Biomedical devices and instrumentation Ceramic Materials
852	Mécanismes cellulaires et moléculaires de l'immunodépression post-infectieuse Grimaldi, David 25 November 2013 (has links) (PDF) Les infections graves entraînent une dysrégulation de la réaction inflammatoire associée à une immunodépression complexe associée à la survenue d'infections nosocomiales. Les mécanismes cellulaires et moléculaires qui régulent ces phénomènes demeurent largement incompris. A l'interface entre système immunitaire inné et adaptatif, les cellules dendritiques et les lymphocytes innés pourraient être impliqués dans l'immunodépression post-infectieuse. Par ailleurs, les récepteurs de type Toll (TLR) déterminent l'amplitude de la réponse inflammatoire initiale, mais leur contribution dans le développement de l'immunodépression post-infectieuse n'a pas été établie. Les objectifs de ce projet de recherche étaient d'investiguer le rôle des cellules dendritiques, des lymphocytes de type innés et des voies de signalisation dépendantes des TLRs dans l'immunodépression induite par le sepsis. Nous avons mené ce programme de recherche en combinant une double approche translationnelle et expérimentale. Nous avons étudié la cinétique des cellules dendritiques circulantes chez le patient septique et montré que leur déplétion était associée à la survenue d'infections nosocomiales. L'analyse des trois souspopulations de lymphocytes T innés (lymphocytes γδ, NKT et MAIT) chez le patient septique a montré que seuls les lymphocytes MAIT présentaient une déplétion associée au sepsis sévère, dont la persistance était également corrélée à la survenue d'infections nosocomiales. Enfin, à l'aide de souris knockout nous avons étudié le rôle de TLR2, TLR4 et TLR5 sur la réponse anti-bactérienne dans un modèle murin de pneumonie secondaire à P. aeruginosa à distance d'un sepsis polymicrobien sublétal. Nous avons montré que les souris déficientes pour TLR2 étaient protégées de l'infection secondaire grâce à une meilleure clairance bactérienne. Ce travail introduit des perspectives nouvelles dans la physiopathologie de l'immunodépression post-infectieuse et suggère des applications thérapeutiques potentielles. Sepsis Cellule dendritique Lymphocytes de type inné Lymphocytes MAIT Récepteur de type Toll Pneumonie Souris
853	Biomarqueurs des états septiques sévères : vers de nouvelles stratégies thérapeutiques individualisées Guignant, Caroline 12 December 2011 (has links) (PDF) En dépit de nombreux essais thérapeutiques, les syndromes septiques sont la première cause de mortalité en service de soins intensifs. La population septique étant très hétérogène, une meilleure caractérisation des patients serait essentielle afin de mieux individualiser et cibler les thérapeutiques potentiellement bénéfiques. Une approche multiparamétrique de l'utilisation des biomarqueurs est une alternative qui viserait à appréhender la situation de manière plus globale. Notre travail s'inscrit dans ce contexte au travers de l'étude plus spécifique de la défaillance des systèmes cardio-vasculaire et immunitaire. Au-delà de la confirmation de l'intérêt des biomarqueurs présentement étudiés (prohormones cardio-vasculaires et PD-1) dans la prédiction de la mortalité et du risque d'infections nosocomiales, nos résultats apportent des éléments nouveaux. Nous avons montré que (1) la sur-expression des molécules PD-1 est associée à l'énergie leucocytaire, (2) un même biomarqueur peut apporter une information différente au cours du temps, (3) l'information apportée par l'analyse simultanée de deux biomarqueurs est supérieure à celle de la somme de leurs valeurs individuelles, et (4) l'expression dynamique d'un biomarqueur est meilleure que son expression à un temps donné. Au total, notre travail illustre l'intérêt potentiel d'un panel de biomarqueurs pour mieux appréhender la complexité des états septiques et leur rapide évolution. Il reste néanmoins à développer des outils biostatistiques capables de donner au clinicien une vision globale en temps réel des processus en cours. Cela constituera une étape clé pour mieux stratifier et cibler les prochains essais cliniques dans le domaine. Choc septique Sepsis Biomarqueur Mortalité Infection nosocomiale Adrénomédulline Endothéline1 Peptide natriurétique auriculaire Vasopressine PD-1
854	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
855	Cell- and Cell-based Gene Therapy for Experimental Acute Lung Injury and Sepsis Mei, Shirley Hsin-Ju 20 January 2009 (has links) The acute respiratory distress syndrome (ARDS) and its less severe form, acute lung injury (ALI), are among the leading causes of morbidity and mortality in critically ill patients. Commonly induced by conditions associated with severe pulmonary inflammation, ALI results in disruption of the lung alveolar-capillary membrane barrier and resultant pulmonary edema associated with a proteinaceous alveolar exudate. Sepsis is another frequent and often fatal clinical condition for patients in the intensive care unit. It is characterized by a combination of infection and systemic inflammatory response syndrome (SIRS). Current effective treatment strategies for both ALI/ARDS and sepsis are lacking. We first examined the potential therapeutic role of mesenchymal stromal cells (MSCs) alone or together with the vasculoprotective factor, angiopoietin-1 (ANGPT1), for treatment of experimental ALI in mice. MSCs significantly reduced LPS (lipopolysaccharide)-induced pulmonary inflammation, as reflected by cell counts in bronchoalveolar lavage (BAL) fluid and pro-inflammatory cytokine levels in both BAL fluid and lung parenchymal homogenates. More importantly, administration of MSCs transfected with human ANGPT1 plasmid (MSCs-pANGPT1) completely reversed LPS-induced permeability in the lung (i.e., ALI). A follow-up study showed that MSCs remained effective in rescuing mice with LPS-induced ALI; however, the additional benefit from ANGPT1 was no longer observed. To further evaluate MSC-based therapy in a more clinically relevant model of acute injury, the cecal-ligation-and-puncture (CLP) model for sepsis was employed. Our results demonstrated that MSCs can reduce both systemic and pulmonary inflammation, as well as renal and liver dysfunction/injury, as reflected by plasma urea and bilirubin levels, in septic mice. Most notably, MSCs reduced sepsis-associated mortality from 45% to 24%. Our data demonstrate the feasibility and effectiveness of MSC- and MSC-based gene therapy for experimental ALI and sepsis, and provide the basis for the development of an innovative approach for the prevention and treatment of clinical ALI/ARDS and sepsis. cell therapy cell-based gene therapy acute lung injury Acute Respiratory Distress Syndrome mesenchymal stromal (stem) cells angiopoietin inflammation sepsis 0564
856	Cell- and Cell-based Gene Therapy for Experimental Acute Lung Injury and Sepsis Mei, Shirley Hsin-Ju 20 January 2009 (has links) The acute respiratory distress syndrome (ARDS) and its less severe form, acute lung injury (ALI), are among the leading causes of morbidity and mortality in critically ill patients. Commonly induced by conditions associated with severe pulmonary inflammation, ALI results in disruption of the lung alveolar-capillary membrane barrier and resultant pulmonary edema associated with a proteinaceous alveolar exudate. Sepsis is another frequent and often fatal clinical condition for patients in the intensive care unit. It is characterized by a combination of infection and systemic inflammatory response syndrome (SIRS). Current effective treatment strategies for both ALI/ARDS and sepsis are lacking. We first examined the potential therapeutic role of mesenchymal stromal cells (MSCs) alone or together with the vasculoprotective factor, angiopoietin-1 (ANGPT1), for treatment of experimental ALI in mice. MSCs significantly reduced LPS (lipopolysaccharide)-induced pulmonary inflammation, as reflected by cell counts in bronchoalveolar lavage (BAL) fluid and pro-inflammatory cytokine levels in both BAL fluid and lung parenchymal homogenates. More importantly, administration of MSCs transfected with human ANGPT1 plasmid (MSCs-pANGPT1) completely reversed LPS-induced permeability in the lung (i.e., ALI). A follow-up study showed that MSCs remained effective in rescuing mice with LPS-induced ALI; however, the additional benefit from ANGPT1 was no longer observed. To further evaluate MSC-based therapy in a more clinically relevant model of acute injury, the cecal-ligation-and-puncture (CLP) model for sepsis was employed. Our results demonstrated that MSCs can reduce both systemic and pulmonary inflammation, as well as renal and liver dysfunction/injury, as reflected by plasma urea and bilirubin levels, in septic mice. Most notably, MSCs reduced sepsis-associated mortality from 45% to 24%. Our data demonstrate the feasibility and effectiveness of MSC- and MSC-based gene therapy for experimental ALI and sepsis, and provide the basis for the development of an innovative approach for the prevention and treatment of clinical ALI/ARDS and sepsis. cell therapy cell-based gene therapy acute lung injury Acute Respiratory Distress Syndrome mesenchymal stromal (stem) cells angiopoietin inflammation sepsis 0564
857	Molecular And Cellular Networks in Critical Illness Associated Muscle Weakness : Skeletal Muscle Proteostasis in the Intensive Care Unit Banduseela, Varuna Chaminda January 2012 (has links) Critical illness associated muscle weakness and muscle dysfunction in intensive care unit (ICU) patients lead to severe morbidity and mortality as well as significant adverse effect on quality of life. Immobilization, mechanical ventilation, neuromuscular blocking agents, corticosteroids, and sepsis have been implicated as important risk factors, but the underlying molecular and cellular mechanisms remain unclear. A unique porcine ICU model was employed to investigate the effect of these risk factors on the expression profiles, gene expression and contractile properties of limb and diaphragm muscle, in the early phase of ICU stay. This project has focused on unraveling the underlying molecular and cellular pathways or networks in response to ICU and critical illness interventions. Upregulation of heat shock proteins indicated to play a protective role despite number of differentially transcribed gene groups that would otherwise have a negative effect on muscle fiber structure and function in response to immobilization and mechanical ventilation. Mechanical ventilation appears to play a critical role in development of diaphragmatic dysfunction. Impaired autophagy, chaperone expression and protein synthesis are indicated to play a pivotal role in exacerbating muscle weakness in response to the combined effect of risk factors in ICU. These results may be of therapeutic importance in alleviating critical illness associated muscle weakness. chaperones autophagy intensive care unit heat shock proteins protein synthesis proteostasis ER stress gene expression sepsis neuromuscular blockers corticosteroids immobilisation mechanical ventilation
858	Genetic variation involving IRAK-1 and EC-SOD in sepsis induced acute lung injury / Arcaroli, John Joseph. January 2008 (has links) Thesis (Ph.D. in Clinical Science) -- University of Colorado Denver, 2008. / Typescript. Includes bibliographical references (leaves 96-120). Free to UCD Anschutz Medical Campus. Online version available via ProQuest Digital Dissertations;
859	INSUFICIÊNCIA ADRENAL NA SEPSE EM PACIENTES PEDIÁTRICOS / ADRENAL INSUFFICIENCY IN PEDIATRIC PATIENTS WITH SEPSIS Motta, Márcia Taschetto 17 January 2014 (has links) Adrenal insufficiency is common in pediatric patients with septic shock, but remains underdiagnosed in the early stages of sepsis. The early recognition of the factors representing risk for septic shock is crucial, since no control of them can increase the risk of death. This study aimed to verify the occurrence of adrenal insufficiency and describe the clinical and initial laboratory findings in children hospitalized for sepsis. This was a descriptive study, which included children admitted to the Pediatric Intensive Care Unit of the University Hospital of Santa Maria, in the period from March to October, 2013. We studied five patients with sepsis. For adrenal insufficiency diagnoses we performed the ACTH stimulation test. A positive test was considered when an increment on the cortisol level equal or less 9 μg/dL occurred. Five children were analyzed, 80 % were male with a mean age of 7.3 years (±4.2). The initial laboratorial findings confirmed the presence of sepsis. Adrenal insufficiency was diagnosed in 2 of 5 patients studied, representing 40 %. Only one patient (20%) required mechanical ventilation. There was no progression to septic shock in any of the patients studied. All patients were discharges from hospital. We concluded that adrenal insufficiency may be present in pediatric patients with sepsis, in its earliest stages. / A insuficiência adrenal é comum em pacientes pediátricos com choque séptico, porém permanece subdiagnosticada nas fases mais precoces da sepse. Reconhecer precocemente os fatores de progressão para o choque séptico é de fundamental importância, uma vez que, o não controle dos mesmos favorece a lesão de órgãos nobres, aumentando, dessa forma, o risco de morte. Este estudo teve por objetivo verificar a ocorrência de insuficiência adrenal e descrever a evolução clínica e os achados laboratoriais iniciais em crianças internadas por sepse. Estudo descritivo, tipo série de casos, que incluiu crianças admitidas na Unidade de Terapia Intensiva Pediátrica do Hospital Universitário de Santa Maria, no período de março/2013 a outubro/2013. Foram estudados pacientes com diagnóstico de sepse. A insuficiência adrenal foi diagnosticada através da realização do teste de estimulação com ACTH (teste da cortrosina). O nível de cortisol foi dosado imediatamente antes (basal) e uma hora após a administração venosa de 250 μg do análogo sintético do ACTH. Um incremento menor ou igual a 9 μ/dL no cortisol sérico definiu insuficiência adrenal. Foram estudadas 5 crianças, sendo 80% do sexo masculino, com idade média de 7,3 anos (±4,2). Os achados laboratoriais iniciais confirmavam presença de sepse. Insuficiência adrenal foi diagnosticada em 2 dos 5 pacientes, representando 40%. Apenas um paciente (20%) necessitou de suporte ventilatório. Não houve evolução para choque séptico em nenhum dos pacientes estudados. Todos os pacientes receberam alta hospitalar. Concluiu-se a insuficiência adrenal pode estar presente, em pacientes pediátricos com diagnóstico de sepse, nas suas fases mais precoces. Insuficiência adrenal Doença crítica Sepse Choque séptico Criança Pediatria Adrenal insufficiency Adrenocorticotropic hormone Sepsis Septic shock Children Critical illness CNPQ::CIENCIAS DA SAUDE
860	Akutní poškození ledvin v sepsi: patolofyziologické a léčebné aspekty / Acute kidney injury in sepsis: phatophysiological and therapeutical aspects Chvojka, Jiří January 2011 (has links) Sepsis and septic shock remain major cause of mortality in non-coronary intenisve care units. Prognosis of septic patiens worsens further in case of concomitant acute kidney injury. Pathophysiological pathways leading to renal dysfunction in sepsis remain unclear despite of enormous experimental and clinical research. Similarly, the role of extracorporeal blood purification techniques as an adjunctive treatment in sepsis is highly controversial. The aim of our study was to dynamically assess renal haemodynamic, microvascular and metabolic responses in a porcine clinically relevant model of septic shock. The same experimental model was used in experiments elucidating potential benefit effects of two distinct haemopurification methods on different biological responses to infectious insult.

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