We studied prospectively the quantitative relation of circulating endotoxin (lipooligosaccharides [LOSs]) and the development of multiple organ failure and death in 45 consecutively admitted patients with bacteriologically verified systemic meningococcal disease (SMD). A plasma LOS level of greater than 700 ng/L correlated with development of severe septic shock (P less than .0001), adult respiratory distress syndrome (P = .0035), a pathologically elevated serum creatinine level (P less than .0001), or death as a consequence of multiple organ failure (P = .0002). Initial plasma LOS levels of less than 25, 25-700, 700-10,000, and greater than 10,000 ng/L were associated with 0%, 14%, 27%, and 86% fatality, respectively. The LOS half-life after initiation of antibiotic therapy was 1-3 h. Increasing plasma LOS levels were never seen. These observations suggest that LOS quantitation using the limulus amebocyte lysate assay with a chromogenic substrate gives important progsnotic information and may provide new insight concerning pathophysiological aspects of SMD.
The only natural reservoir of Neisseria meningitidis is the human nasopharyngeal mucosa. Depending on age, climate, country, socioeconomic status, and other factors, approximately 10% of the human population harbors meningococci in the nose. However, invasive disease is relatively rare, as it occurs only when the following conditions are fulfilled: (i) contact with a virulent strain, (ii) colonization by that strain, (iii) penetration of the bacterium through the mucosa, and (iv) survival and eventually outgrowth of the meningococcus in the bloodstream. When the meningococcus has reached the bloodstream and specific antibodies are absent, as is the case for young children or after introduction of a new strain in a population, the ultimate outgrowth depends on the efficacy of the innate immune response. Massive outgrowth leads within 12 h to fulminant meningococcal sepsis (FMS), characterized by high intravascular concentrations of endotoxin that set free high concentrations of proinflammatory mediators. These mediators belonging to the complement system, the contact system, the fibrinolytic system, and the cytokine system induce shock and diffuse intravascular coagulation. FMS can be fatal within 24 h, often before signs of meningitis have developed. In spite of the increasing possibilities for treatment in intensive care units, the mortality rate of FMS is still 30%. When the outgrowth of meningococci in the bloodstream is impeded, seeding of bacteria in the subarachnoidal compartment may lead to overt meningitis within 24 to 36 h. With appropriate antibiotics and good clinical surveillance, the mortality rate of this form of invasive disease is 1 to 2%. The overall mortality rate of meningococcal disease can only be reduced when patients without meningitis, i.e., those who may develop FMS, are recognized early. This means that the fundamental nature of the disease as a meningococcus septicemia deserves more attention.
We examined the cerebrospinal fluid (CF) taken on admission from 60 patients with infections caused by Neisseria meningitidis for presence of TNF-alpha, IL-1, and IL-6. TNF-alpha was detected in CF in 55 and 19% (p = 0.03), IL-1 in 50 and 15% (p = 0.05), and IL-6 in 98 and 100% of patients with meningitis and septic shock/bacteremia, respectively. The median IL-6 concentration in CF in patients with meningitis was 154 ng/ml, and in patients with septic shock/bacteremia it was 42 ng/ml (p = 0.001). The level of LPS in CF correlated with the level of TNF-alpha (r = 0.91, p less than 0.001), but not with the level of IL-1 and IL-6. CF levels of TNF-alpha, IL-1, and IL-6 correlated with each other (r = 0.34-0.54, p less than 0.01), with the protein concentration (r = 0.34-0.62, p less than 0.01) and inversely with the CF/blood glucose ratio (r = -0.34 to -0.67, p less than 0.01). Only the Il-6 level correlated with the leukocyte count (r = 0.37, p less than 0.01). In rabbits TNF-alpha, IL-1, and IL-6 activities sequentially appeared in CF within 3 h of injection of meningococcal LPS or viable meningococci, whereas the main infiltration of granulocytes started after 4 h. TNF-alpha was detected in serum at concentrations less than 1/100 of those in CF after administration of LPS into the subarachnoid space, and conversely, TNF-alpha was detected in CF at concentrations 1/100 of those in serum after intravenous injection of LPS. The results demonstrate that TNF-alpha, IL-1, and IL-6 are sequentially produced in the initial phase of the local inflammatory response caused by meningococci, and that the subarachnoid space and systemic circulation are separate compartments with respect to production of TNF-alpha, IL-1, and IL-6.
SummaryWe have developed a functional assay to study the inflammatory capacity of plasma collected from patients with severe gram-negative septic shock. In this assay, elutriation-purified, cryopreserved human monocytes from one healthy donor are combined with plasma from patients with severe persistent septic shock for 5 h. Subsequently, the plasma is removed, medium added, and procoagulant activity (PCA) and secretion of tumor necrosis factor ct (TNF-ot) and interleukin 6 (IL-6) measured after 18-h incubation. Plasma from 10 patients (6 died) infected with Neisseria meningitidis previously shown to contain high levels of native lipopolysaccharide (LPS) (median 2,700 pg/ml), TNF-o~, IL-6, IL-8, and complement activation products, had a low net spontaneous inflammatory capacity on the monocytes. The median levels of PCA, TNF-ot, and IL-6 were 5, 0, and 4%, respectively, of the monocyte activities induced by norreal plasma boosted with purified N. meningitidis (Nm)-LPS (2,500 pg/ml; net LPS-boosted capacity, 100%). The levels ofPCA, TNF-a, and IL-6 obtained with plasma from shock patients were not different from those induced by plasma from 10 meningococcal patients without shock or with plasma from healthy persons. Boosting shock plasma with 2,500 pg/ml Nm-LPS had little effect on the monocyte activities since the median values of PCA, TNF-ot, and IL-6 revealed a minimal increase from 5, 0, and 4% to 9, 2, and 6%, respectively. The shock plasmas revealed a strong LPS-inhibitory capacity that was largely absent in plasmas from 10 meningococcal patients without shock since the median levels of PCA, TNF--ot, and IL-6 increased from 5, 0, and 0% to 135, 51, and 73%, respectively, after boosting with 2,500 pg/ml Nm-LPS. The LPS-inhibitory capacity was closely associated with the levels of IL-10. The median levels of IL-10 were 19,000 pg/ml in nine shock patients vs. 22 pg/ml in nine nonshock patients with systemic meningococcal disease. Removal of native IL-10 by immunoprecipitation restored the capacity of plasmas to induce monocyte activation either by native LPS or by boosting with Nm-LPS. IL-4 and TGF-[3 were not detected in shock plasmas. In 24 patients with detectable meningococcal LPS (>10 pg/ml, 0.1 endotoxin units/m1), the levels of IL-10 were correlated to the levels ofLPS (r = 0.79, P <0.001). IL-10 declined from initiation of antibiotic therapy and paralleled the levels of native LPS. Decreasing levels of IL-10 in serially collected shock plasmas were directly related to increasing monocyte responsiveness after Nm-LPS boosting. These results suggest that IL-10 plays a major role in containing activation of monocytes and possibly other LPS-responsive cells during overwhelming meningococcemia. 1 ~ystemic meningococcal disease (SMD) has been a model ~)infection to elucidate the biological effects of LPS in humans. It is the only gram-negative infection so far studied that reveals a dose-dependent association between plasma levels of LPS and mortality due to circulatory collapse (1, 2).The circulating levels ...
The clinical symptoms induced by Neisseria meningitidis reflect compartmentalized intravascular and intracranial bacterial growth and inflammation. In this chapter, we describe a classification system for meningococcal disease based on the nature of the clinical symptoms. Meningococci invade the subarachnoid space and cause meningitis in as many as 50-70% of patients. The bacteremic phase is moderate in patients with meningitis and mild systemic meningococcemia but graded high in patients with septic shock. Three landmark studies using this classification system and comprising 862 patients showed that 37-49% developed meningitis without shock, 10-18% shock without meningitis, 7-12% shock and meningitis, and 18-33% had mild meningococcemia without shock or meningitis. N. meningitidis lipopolysaccharide (LPS) is the principal trigger of the innate immune system via activation of the Toll-like receptor 4-MD2 cell surface receptor complex on myeloid and nonmyeloid human cells. The intracellular signals are conveyed via MyD88-dependent and -independent pathways altering the expression of >4,600 genes in target cells such as monocytes. However, non-LPS molecules contribute to inflammation, but 10-100-fold higher concentrations are required to reach the same responses as induced by LPS. Activation of the complement and coagulation systems is related to the bacterial load in the circulation and contributes to the development of shock, organ dysfunction, thrombus formation, bleeding, and long-term complications in patients. Despite rapid intervention and advances in patient intensive care, why as many as 30% of patients with systemic meningococcal disease develop massive meningococcemia leading to shock and death is still not understood.
The activation state of the complement system in 39 consecutively admitted patients with systemic meningococcal disease was studied prospectively using two monoclonal antibodies reacting with neoepitopes exposed during complement activation. The fluid-phase C3 activation products and SC5b-9 (terminal complement complex) were strongly correlated to the levels of endotoxin (lipooligosaccharides, LOS) in plasma on admission (r = .79, P less than .0001 and r = .76, P less than .0001, respectively) and to fatality. Maximum complement activation in survivors occurred 7h (median; range 0-44 h) after initiation of antibiotic treatment. The most severely ill patients had the capacity to activate the whole complement cascade. In nonsurvivors, high-grade activation often continued until the patients died. The results suggest that LOS are important activators of complement in systemic meningococcal disease and that complement-activating products, in concert with other mediators, may contribute to the multiple organ failure and death occurring in the most severe cases.
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