Pathophysiological, Inflammatory and Haemostatic Responses to Various Endotoxaemic Patterns : An Experimental Study in the Pig

Lipcsey, Miklós

January 2006

<p>Septic shock is frequently seen in intensive care units and is associated with significant mortality. Endotoxin – a major mediator of the pathophysiologic responses – is released during lysis of Gram-negative bacteria. These responses can be mimicked in the endotoxaemic pig.</p><p>This thesis focuses on the following topics: the inflammatory and pathophysiological responses to various endotoxin doses and infusion patterns; covariations between endotoxin induced inflammatory and pathophysiological responses; whether the biological effects of endotoxin can be modulated by clopidogrel and whether tobramycin or ceftazidime reduce plasma cytokine levels.</p><p>Endotoxin induced linear log-log cytokine and F2-isoprostane responses. Leukocyte and platelet responses, pulmonary compliance, circulatory variables as well as indicators of plasma leakage and hypoperfusion exhibited log-linear responses to the endotoxin dose. Biological responses to endotoxaemia such as inflammation, hypotension, hypoperfusion and organ dysfunction were more expressed when the organism was exposed to endotoxin at a higher rate. These results may facilitate the possibility to choose relevant endotoxin administration, when experiments are set up in order to evaluate certain responses to endotoxaemia.</p><p>Correlation studies between cytokines, leukocytes, platelets and the endotoxin dose were in agreement with the well-known ability of endotoxin to induce cytokine expression and to activate both primary haemostasis and leukocytes. Free radical mediated lipid peroxidation and COX-mediated inflammation correlated to cytokine expression and organ dysfunction in endotoxaemic shock. </p><p>Endotoxaemic pigs pretreated with clopidogrel, exhibited a trend towards less expressed deterioration of renal function, although blocking of ADP-induced primary haemostasis is not a key mediator of endotoxin induced deterioration of renal function.</p><p>Tobramycin did not neutralise the biological effects of endotoxin or the plasma levels of endotoxin, suggesting that these antibiotics do not bind to endotoxin.</p><p>Reduction in IL-6 was greater in pigs treated with ceftazidime and tobramycin as compared with those given saline, indicating a possible anti-inflammatory effect of both antibiotics.</p>

Anaesthesiology and intensive care

sepsis

animal model

cytokines

isoprostanes

endotoxic shock

pig

Anestesiologi och intensivvård

Plasma as a Therapeutic Principle in Clinical Practice : With Special Reference to Sweden

Norda, Rut A C

January 2007

<p>The newly established Swedish Apheresis Registry makes it possible to do national inter-center comparisons. This study was undertaken to describe and analyze the use of therapeutic apheresis and the adverse effects in such therapy. The special case of plasma exchange as rescue therapy in multi-organ failure, including renal failure, was also studied. In Sweden, plasma for transfusion is prepared and stored to ensure rapid availability. Due to new EU legislation, validation of such plasma was performed. </p><p>The analysis indicated that the use of therapeutic apheresis was in line with recommendations of other international societies. The frequency and types of adverse effects were comparable to those reported in other studies from analogous time periods. Compared with other countries, it appears that more therapeutic resources are available in Sweden and that there is a lower frequency of adverse effects in specific procedures. No fatalities were reported. The unique comparison of differences between centers regarding plasma exchange identified areas for further improvement.</p><p>The study on plasma exchange as rescue therapy in severe sepsis or septic shock is the second largest reported. The result was promising, with a survival rate of 82%. The rapid availability of plasma for transfusion appears to be of clinical importance in patients with early coagulopathy and severe trauma but the present selection and storage procedures for plasma lead to a time-dependent increase of the number of units with cold-induced activation of the contact system and C1 inhibitor consumption before day 14. Improvements of plasma quality can be attained by using plasma from male donors only and by reducing the storage time from 14 to 7 days. </p><p>Further studies are needed to define the role of plasma exchange in severe sepsis/septic shock, to evaluate the outcome of each patient’s treatment and to establish the indications for the transfusion of plasma.</p>

Immunology

adverse effects

contact activation

plasma exchange

plasma storage

severe sepsis

therapeutic apheresis

transfusion

Immunologi

Modulating Organ Dysfunction in Experimental Septic Shock : Effects of Aminoglycosides, Antiendotoxin Measures and Endotoxin Tolerance

Castegren, Markus

January 2011

Sepsis is a common diagnose in the intensive care population, burdened with a high mortality. The systemic inflammatory reaction underlying the development of septic organ dysfunction can be modeled using Gram-negative bacterial lipopolysaccharide, endotoxin. This thesis used a porcine endotoxemic experimental sepsis model to address clinical questions difficult to answer in clinical trials; furthermore a model of secondary sepsis was developed. No additional effect on the development of renal dysfunction by tobramycin was found, indicating that a single dose of tobramycin does not further compromise renal function in inflammatory-induced acute kidney injury. Antiendotoxin treatment had no measurable effect on TNF-α-mediated toxicity once the inflammatory cascade was activated. There was an effect on the leukocyte response that was associated with improvements in respiratory function and microcirculation, making it impossible to rule out fully the beneficial effect of this strategy. However, the effects were limited in relation to the magnitude of the endotoxin concentration reduction and the very early application of the antiendotoxin measure. The lungs stood out compared to the other organ systems as having a threshold endotoxin dose for the protective effect of endotoxin tolerance. As to the development of circulatory and renal dysfunction, tolerance to endotoxin was evident regardless of the endotoxin pre-exposure and challenge dose. There was a temporal variation of endotoxin tolerance that did not follow changes in plasma TNF-α concentrations and maximal tolerance was seen very early in the course. More pronounced endotoxin tolerance at the time of maximum tolerance was associated with a more marked hyperdynamic circulation, reduced oxygen consumption and thrombocytopenia eighteen hours later. It might be of interest to use the experimental model of long-term endotoxemia followed by a second hit, which has been designed to resemble an intensive care setting, for the study of treatment effects of immunomodulating therapies in secondary sepsis. / Paper 3, previous title as submitted: "Compartmentalization of organ endotoxin tolerance in a porcine model of secondary sepsis"

Lipopolysaccharide

animal model

pig

tobramycin

endotoxin elimination

immunoparalysis

secondary sepsis

Infectious diseases

Infektionssjukdomar

Plasma as a Therapeutic Principle in Clinical Practice : With Special Reference to Sweden

Norda, Rut A C

January 2007

The newly established Swedish Apheresis Registry makes it possible to do national inter-center comparisons. This study was undertaken to describe and analyze the use of therapeutic apheresis and the adverse effects in such therapy. The special case of plasma exchange as rescue therapy in multi-organ failure, including renal failure, was also studied. In Sweden, plasma for transfusion is prepared and stored to ensure rapid availability. Due to new EU legislation, validation of such plasma was performed. The analysis indicated that the use of therapeutic apheresis was in line with recommendations of other international societies. The frequency and types of adverse effects were comparable to those reported in other studies from analogous time periods. Compared with other countries, it appears that more therapeutic resources are available in Sweden and that there is a lower frequency of adverse effects in specific procedures. No fatalities were reported. The unique comparison of differences between centers regarding plasma exchange identified areas for further improvement. The study on plasma exchange as rescue therapy in severe sepsis or septic shock is the second largest reported. The result was promising, with a survival rate of 82%. The rapid availability of plasma for transfusion appears to be of clinical importance in patients with early coagulopathy and severe trauma but the present selection and storage procedures for plasma lead to a time-dependent increase of the number of units with cold-induced activation of the contact system and C1 inhibitor consumption before day 14. Improvements of plasma quality can be attained by using plasma from male donors only and by reducing the storage time from 14 to 7 days. Further studies are needed to define the role of plasma exchange in severe sepsis/septic shock, to evaluate the outcome of each patient’s treatment and to establish the indications for the transfusion of plasma.

Immunology

adverse effects

contact activation

plasma exchange

plasma storage

severe sepsis

therapeutic apheresis

transfusion

Immunologi

Plasmin : a potent pro-inflammatory factor

Guo, Yongzhi

January 2008

Plasmin, the central molecule of the plasminogen activator system, is a broad-spectrum serine protease. Plasmin is important for the degradation of fibrin and other components of the extracellular matrix (ECM) during a number of physiological and pathological processes. The aim of this thesis was to elucidate the functional roles of plasmin during pathological inflammation and infection in autoimmune and non-autoimmune diseases. For this purpose, mouse models of rheumatoid arthritis (RA), bacterial arthritis, infection, and sepsis have been used. Previous studies from our laboratory have shown that plasminogen-deficient mice are resistant to the development of collagen type II-induced arthritis (CIA). In contrast, others have shown that plasmin plays a protective role in antigen-induced arthritis (AIA). To investigate the contrasting roles of plasminogen deficiency in models of CIA and AIA, a new animal model of arthritis called local injection-induced arthritis (LIA) was developed. In this model, we replaced methylated bovine serum albumin, which is normally used as an immunogen in the AIA model, with collagen type II (CII) to induce arthritis. When wild-type and plasminogen-deficient mice were injected intra-articularly with CII or 0.9% NaCl following CIA induction, plasminogen-deficient mice developed typical CIA, but the disease was less severe than in wild-type mice and was restricted to the injected joints. When the AIA model was used, plasminogen-deficient mice developed a much more severe arthritis than the wild-type mice. These results indicate that both the antigen and joint trauma caused by the local injection are critical to explaining the contrasting roles of plasminogen deficiency in CIA and AIA. This indicates that CIA and AIA have distinct pathogenic mechanisms and plasmin plays contrasting roles in different types of arthritis models. To study the functional roles of plasmin in the host inflammatory response during infectious arthritis, a Staphylococcus aureus-induced bacterial arthritis model was established. When wild-type mice were injected intra-articularly with 1 × 106 colony-forming units (CFU) of S. aureus per joint, all the bacteria were completely eliminated from the injected joints in 28 days. However, in the plasminogen-deficient mice, the S. aureus counts were 27-fold higher at day 28 than at day 0. When human plasminogen was given to the plasminogen-deficient mice daily for 7 days, the bacterial clearance was greatly improved and the necrotic tissue in the joint cavity was also completely eliminated. Supplementation of plasminogen-deficient mice with plasminogen also restored the expression level of interleukin-6 (IL-6) in the arthritic joints. In summary, plasmin has protective roles during S. aureus-induced arthritis by enhancing cytokine expression, removing necrotic tissue, and mediating bacterial killing and inflammatory cell activation. The functional roles of plasmin during infection and sepsis were also studied in mice. Infection was induced by injecting 1 × 107 CFU of S. aureus intravenously and the sepsis model was induced by injecting 1.6 × 108 CFU of S. aureus. In the infection model, the wild-type mice had a 25-day survival rate of 86.7%, as compared to 50% in the plasminogen-deficient group. However, when sepsis was induced, the average survival for plasminogen-deficient mice was 3 days longer than for wild-type mice. Twenty-four hours after the induction of sepsis, the serum levels of IL-6 and IL-10 as well as the bacterial counts in all organs investigated were significantly higher in wild-type mice than in plasminogen-deficient mice. In wild-type mice, blockade of IL-6 by intravenous injection of anti-IL-6 antibodies significantly prolonged the onset of mortality and improved the survival rate during sepsis. These data indicate that plasmin plays different roles during infection and sepsis. Furthermore, plasmin appears to be involved in the regulation of inflammatory cytokine expression during sepsis. Taken together, our data indicate that plasmin plays multifunctional pro-inflammatory roles in different autoimmune and non-autoimmune diseases. The pro-inflammatory roles of plasmin include activation of inflammatory cells, regulation of cytokine expression, and enhancement of the bacterial killing ability of the host.

plasmin

inflammation

rheumatoid arthritis

bacterial arthritis

infection

sepsis

cytokine

signal transduction

Pathology

Patologi

Angiopoietin-1 and -2 in Infectious Diseases associated with Endothelial Cell Dysfunction

Page, Andrea Vaughn

21 March 2012

Normal endothelial cell function is controlled in part by a tightly regulated balance between angiopoietin-1 and -2 (Ang-1 and Ang-2). Angiopoietin dysregulation (decreased Ang-1 and increased Ang-2) leads to an activated endothelium that is contractile, adhesive, and prothrombotic. Since an activated endothelial phenotype is seen in invasive group A streptococcal infection, E. coli O157:H7-induced hemolytic-uremic syndrome (HUS), and sepsis, we hypothesized that angiopoietin dysregulation might also be present in these syndromes, and to that end, measured angiopoietin levels in several well-characterized patient cohorts. Decreased Ang-1 and/or increased Ang-2 were found in all three syndromes, and were predictive of clinical outcome in HUS and sepsis. The prognostic utility of Ang-2 in sepsis was further enhanced by combination with biomarkers of inflammation. Angiopoietin dysregulation may therefore represent a shared final common pathway to endothelial activation as well as a clinically useful prognostic biomarker in streptococcal toxic shock, HUS, and sepsis.

angiopoietin-1

angiopoietin-2

endothelial cell

streptococcal toxic shock

hemolytic-uremic syndrome

sepsis

0564

Angiopoietin-1 and -2 in Infectious Diseases associated with Endothelial Cell Dysfunction

Page, Andrea Vaughn

21 March 2012

Normal endothelial cell function is controlled in part by a tightly regulated balance between angiopoietin-1 and -2 (Ang-1 and Ang-2). Angiopoietin dysregulation (decreased Ang-1 and increased Ang-2) leads to an activated endothelium that is contractile, adhesive, and prothrombotic. Since an activated endothelial phenotype is seen in invasive group A streptococcal infection, E. coli O157:H7-induced hemolytic-uremic syndrome (HUS), and sepsis, we hypothesized that angiopoietin dysregulation might also be present in these syndromes, and to that end, measured angiopoietin levels in several well-characterized patient cohorts. Decreased Ang-1 and/or increased Ang-2 were found in all three syndromes, and were predictive of clinical outcome in HUS and sepsis. The prognostic utility of Ang-2 in sepsis was further enhanced by combination with biomarkers of inflammation. Angiopoietin dysregulation may therefore represent a shared final common pathway to endothelial activation as well as a clinically useful prognostic biomarker in streptococcal toxic shock, HUS, and sepsis.

angiopoietin-1

angiopoietin-2

endothelial cell

streptococcal toxic shock

hemolytic-uremic syndrome

sepsis

0564

Developing a Colorimetric, Magnetically Separable Sensor for the Capture and Detection of Biomarkers

Chan, Terence

29 August 2012

Point-of-care testing (POCT) devices have received increasing attention because of their potential to address the urgent need for quick and accurate diagnostic tools, especially in areas of personal care and clinical medicine. They offer several benefits over current diagnostic systems, including rapid diagnostic results in comparison to microbial cultures, simple interpretation of results, portability, and requiring no specialised laboratory equipment or technical training to operate. These are essential for diagnosing critical illnesses, such as sepsis, in areas of poor healthcare infrastructure. Sepsis, an innate physiological response to infection, is a growing problem worldwide with high associated costs and mortality rates, and affects a wide range of patients including neonates, infants, the elderly, and immunocompromised individuals. A literature review of the biomarkers of sepsis and the currently available diagnostic systems indicates the need for a biosensor capable of meeting the requirements of designing POCT systems and achieving detection of low concentrations of biomarkers. To meet these demands, two significant contributions to developing POCT platforms have been achieved and described in this thesis, including: 1) development of a colorimetric, magnetically separable biosensor that can be easily fabricated and demonstrates an easily identifiable colour response upon analyte detection, as well as the ability to capture and detection target biomarkers at low concentrations from complex solutions; and 2) tuning of the biosensor’s colorimetric response to achieve low detection limits, as well as demonstration of the versatility of the biosensor for sensing different target analytes. The developed biosensor in this work combines colour responsive polydiacetylenes and superparamagnetic iron oxide for the first time to achieve a biosensor capable of meeting these demands. The sensors exhibit identifiable colour responses to biomolecule detection, capture of a target analyte from complex solutions, sensing of different target analytes, a lower detection limit of 0.01 mg/mL, and rapid separation from solution with a common magnet. This work has been a significant demonstration of the capabilities of this biosensor as a new platform for POCT systems to diagnosis sepsis, and potentially other sensing applications.

point-of-care testing

sepsis

colorimetric

magnetic separation

polydiacetylene

biosensor

Chemical Engineering

Toll-like Receptor (TLR) Signaling and Differential Activation of PGC Family Genes in a Mouse Model of <i> Staphylococcus aureus </i> Sepsis

Sweeney, Timothy Elisha

January 2010

<p>Sepsis is a major cause of morbidity and mortality in the United States, and Staphylococcus aureus (S. aureus) is the bacteria most commonly cultured from septic patients. In severe sepsis, the relationship between the systemic inflammatory response and the resulting mitochondrial and metabolic dysfunction is not fully understood, especially with respect to the mechanisms of mitochondrial damage resolution. The process of mitochondrial biogenesis, which leads to the restoration of metabolic and anti-oxidative functions in damaged or stressed cells and tissues, is pro-survival and is a critical protective response in sepsis. Mitochondrial biogenesis requires the coordinated expression of multiple regulatory proteins, including the PPARgamma-coactivator (PGC) family of proteins. Previous work in sepsis has focused on mitochondrial biogenesis in response to late signals of mitochondrial damage; however, for acute sepsis, we have hypothesized a direct and early link between the innate immune response and the transcriptional activation of mitochondrial biogenesis. Since the Toll-like receptors (TLRs) are a major part of the innate immune response, we hypothesized that they could activate mitochondrial biogenesis in bacterial sepsis. Earlier work showed that TLR4 (which responds to components of Gram-negative bacteria) was necessary for mitochondrial biogenesis induction in response to heat-killed E. coli challenge. For this work, the objective was to investigate whether signaling by TLR2 (which responds to components of Gram-positive bacteria) would activate mitochondrial biogenesis in response to S. aureus sepsis in mice. The sepsis model was initially characterized in wild-type (WT) mice by PCR analysis of hepatic RNA, in which the up-regulation of several regulatory proteins for mitochondrial biogenesis, including all three PGC family members, was observed. In contrast, in both TLR2-/- and TLR4-/- mice, the mitochondrial biogenesis response was deficient and delayed. In addition, PGC-1alpha and PGC-1beta were differentially regulated in WT, TLR2-/-, and TLR4-/- mice. To identify the mechanisms involved in this induction pattern, the known TLR signaling pathways were systematically probed for activation using several strains of genetic knockout mice. These data demonstrated that the differential regulation of the PGC family is independent of the MyD88 adapter protein and is caused in part by IRF7 signaling. IRF7 is a pro-inflammatory transcription factor that is normally involved in the interferon response; in this case, IRF7 was found to be necessary but not sufficient for PGC-1alpha/beta induction. In addition, a second level of regulation was identified in the microRNA mmu-mir-202-3p, which is inversely correlated with the expression of PGC-1alpha and PGC-1beta mRNA in WT, TLR2-/-, and TLR4-/- mice and was shown to functionally decrease PGC-1alpha mRNA. If these observations are confirmed in humans, IRF7 and mir-202-3p may be potential therapeutic targets for the up-regulation of PGC-1alpha/beta levels in the clinical setting of sepsis and impaired mitochondrial biogenesis.</p> / Dissertation

Health Sciences, Pathology

Health Sciences, Medicine and Surgery

Biology, Molecular

mitochondria

PGC

sepsis

Staphylococcus aureus

TLR

The role of propofol on nitric oxide production and oxdiative stress in cardivascular and pulmonary system during endotoxmia and ischemia-reperfusion injury: from animal to cell

Liu, Yen-Chin

19 February 2010

Sepsis, a great challenge to the physician, is characterized with massive oxidative stress of tissue, cytokine inflammation and increases in nitric oxide (NO) production. Meanwhile, free radical induced by oxidative stress also injures cell membrane or DNA. The way to terminate free radical chain reaction is to administer antioxidant. The commonly used anesthetic, propofol, was thought to be with antioxidant capacity. In the first part of this thesis, we investigated the different role of oxidative injury and NO via systemic injection of LPS in rats. We demonstrated oxidative injury is associated with both early and late stage whereas NO is engaged primarily in late stage cardiovascular depression. Propofol, a rapid onset and fast recovery anesthetic, is attributed to protect anainst cardiovascular depression via attenuating the late stage NO surge in aorta by inhibition of iNOS upregulation. We also examine the influence of propofol on temporal changes in power density of frequency components of systemic arterial pressure (SAP) variability in rat with sepsis and the role of inducible NO synthase (iNOS). We have the conclusions that iNOS-induced NO might be involved in the manifestation of high-frequency and low-frequency components of the SAP spectrum during endotoxemia when low-dose propofol is used and the effect of NO is blunted when high-dose propofol is administered. Due to further investigation was needed to the cellular protective mechanisms of propofol, we delineate the effect of propofol to free radical related enzymel involved in sepsis via both in vivo and vitro studies with rats subjected to LPS (15 mg/kg) and H9C2, L2, NR8383 (derived from rat cardiac myocyte, lung, macrophage, respectively), respectively. Our results demonstrated that propofol may play the major protective role on iNOS, superoxide dismutase and p47 phox oxidative enzymes on lung epithelial cells. Propofol also provided protective effects on cardiac myocyte and macrophage with suppression of iNOS only although free radical production were all significantly suppressed. Ischemia-reperfusion (IR) injury may also produce a lot of free radical and cytokines to cause tissue damage and is common in clinical. We investigated the effect of propofol on free radical and cytokine production via this different model and compared with another rapid recovery anesthesitc, sevoflurane. Aortic decalmping surgery in porcine and their monocyte, aortic and coronary smooth muscle cells were applied for in vivo and in vitro model, respectively. We also demonstrated that propofol but not sevoflurane suppressed the production of free radical and cytokine in monocyte and smooth muscle cells but not in vivo model. In sepsis and IR model that produced a lot free radical and cytokines, propofol eliminated the free redical and cytokines via suppressed different kinds of oxidative enzymes in different cells of different organs to express its protective role. However, as an anesthetic, propofol must be used carefully to perform its maximal benefit.

sepsis

nitric oxide synthase

ischemia-reperfusion

free radical

arterial pressure spectrum

propofol