Severe sepsis--a new treatment with both anticoagulant and antiinflammatory properties

Drotrecogin alfa (activated) (recombinant human activated protein C) for the treatment of severe sepsis

OBJECTIVE

To review the data supporting drotrecogin alfa (activated) for severe sepsis treatment.

DATA SOURCES

Published research and data from the Protein C Worldwide Evaluation in Severe Sepsis (PROWESS) trial.

DATA EXTRACTION AND SYNTHESIS

The coagulation cascade and intense inflammation play a central role in the development of organ failure due to severe sepsis. Drotrecogin alfa (activated) has anti-inflammatory, antithrombotic, profibrinolytic, and other properties that may explain the beneficial results seen in both animal models and humans with severe sepsis. Drotrecogin alfa (activated) produces a robust reduction in the mortality rate of patients with severe sepsis that is evident across nearly every subgroup examined in the phase III clinical trial and has an acceptable safety profile with bleeding during infusion as the only significant risk associated with therapy. The relative risk reductions for mortality seen in Gram-negative, Gram-positive, pneumonia, abdominal sources, shock, and nonshock are similar to the intent-to-treat population, 19.4%. Treatment also increases days alive and free from mechanical ventilation and shock.

CONCLUSIONS

Coagulopathy and systemic inflammation are almost universal in patients with severe sepsis. Treatment of this disorder with drotrecogin alfa (activated) directly addresses these derangements and substantially reduces morbidity and mortality rates with potential for bleeding during infusion as the only known risk.

[Role of anti-inflammatory drugs in the treatment of acute coronary syndromes. From athero-inflammation to athero-thrombosis]

Coronary thrombosis is the most important cause of morbidity and mortality and the most severe manifestation of atherosclerosis. Knowledge of the pathophysiology of atheroma formation and the causes of atheroma accidents have allowed the development of new therapeutic measures for reducing thrombotic events after a coronary episode. Treating the thrombosis after plaque rupture is useful, but a late measure once coronary flow is disturbed. Therefore, treatment at an earlier stage, which we call athero-inflammation, a central event in atheroma progression leading to atherothrombosis, seems wise. There is evidence of an inflammatory component in the pathogenesis of atheroma rupture in acute coronary events. Earlier studies of anti-inflammatory medication have not demonstrated a reduction in thrombotic complications after an acute coronary episode. However, there are pathophysiological arguments and clinical findings that suggest that it would be advisable to include anti-inflammatory medications, especially those that inhibit preferentially COX-2, in the therapeutic arsenal for this pathology. We postulated that blocking athero-inflammation could prevent thrombosis. A pilot study was carried out in 120 patients with acute coronary syndrome without ST-segment elevation in which 60 patients were treated with meloxicam, a preferential COX-2 inhibitor. All patients received heparin and aspirin. During the stay in the coronary care unit, as well as after 90 days, meloxicam lowered composite outcomes (myocardial infarction, death and revascularization procedures) compared with the control group. These results and available pathophysiological and clinical evidence support the hypothesis of potential benefits of non-steroidal anti-inflammatory drugs with preferential inhibitory activity on COX-2 in patients with acute coronary syndromes. More trials are needed to confirm their preventive effect.

Drotrecogin alfa (activated): a novel therapeutic strategy for severe sepsis

Recent studies have highlighted the close link between activation of the coagulation system and the inflammatory response in the pathophysiology of severe sepsis. The protein C anticoagulant pathway plays an integral part in modulating the coagulation and inflammatory responses to infection. In patients with sepsis, endogenous protein C levels are decreased, shifting the balance toward greater systemic inflammation, coagulation, and cell death. On the basis of a single large randomised phase 3 trial, drotrecogin alfa (activated), a recombinant form of human activated protein C, was recently approved for the treatment of adult patients with severe sepsis and a high risk of death. Since its approval, several questions have been raised regarding the appropriate use of this agent. Given the increased risk of serious bleeding and the high cost of treatment, drotrecogin alfa (activated) should be reserved at this time for the most acutely ill patients with severe sepsis who meet the criteria that were used in the phase 3 trial.

Air embolism as a cause of the systemic inflammatory response syndrome: a case report

We describe a case of systemic inflammatory response syndrome associated with air embolism following the removal of a central line catheter, coupled with a deep inspiratory maneuver. The presence of a patent foramen ovale allowed the passage of a clinically significant amount of air from the venous circulation to the systemic circulation. The interaction of air with the systemic arterial endothelium may have triggered the release of endothelium-derived cytokines, resulting in the physiologic response of systemic inflammatory response syndrome.

Fresh frozen plasma in patients with disseminated intravascular coagulation or in patients with liver diseases

Disseminated intravascular coagulation (DIC) and liver diseases are complex clinical conditions. Both disorders frequently disturb the finely tuned coagulation and fibrinolysis equilibrium. In DIC, a wide range of underlying disorders can induce a systemic activation of the coagulation system with generation of soluble fibrin, possible deposition of platelet-rich fibrin clots in the microvasculature and subsequent micro- or macroembolism, impaired organ perfusion and organ failure. Such coagulation activation depletes platelets, coagulation factors, and inhibitors and clinically can result in severe, sometimes untreatable bleeding, especially when bone marrow or liver function is diminished or invasive procedures are performed. In addition, a secondary counterbalancing activation of the fibrinolytic system to dissolve microcirculatory clots adds to the bleeding tendency. In conjunction with other options based on prompt and rigorous treatment of the underlying cause of DIC, fresh frozen plasma plays an important role in therapeutic management when overt bleeding is present or anticipated in DIC patients with disturbed coagulation or when an invasive procedure is being planned. In liver disease, factor and inhibitor synthesis in both the coagulation and fibrinolytic system is impaired, both quantitatively and qualitatively. This destabilizes the balance between the two systems. In addition, the clearance of activated coagulation factors and fibrin(ogen) degradation products (FDP) from the systemic circulation is impaired. In patients with liver diseases and acute or imminent bleeding, or before invasive procedures, fresh frozen plasma (FFP) offers advantages over clotting factor concentrates. However, hypervolemia following the required doses of FFP might pose a problem in some liver disease patients.The complex pathophysiology both in DIC and in liver disease requires early diagnosis and adequate management including plasma and platelet substitution after treatment of the underlying disease. Due to the heterogeneity of DIC and liver disease, prospective randomized trials are difficult to perform. Therefore, treatment recommendations are mostly empirical and less evidence-based. Therapy must be accompanied by close and repeated clinical and laboratory monitoring.

Plasminogen activators in inflammation and sepsis

Mortality of severe sepsis remains at 40% to 50%. Intensive efforts over the past two decades have only marginally improved outcome. Improving outcome in sepsis depends on understanding its pathophysiology, which involves triggers, responses of the organism, and dysfunction. Stress, injury, or infection trigger host responses, including local and systemic orchestrated mechanisms. Dysfunction and outcome depend on both trigger and response. Blood coagulation, inflammation, immunity, and fibrinolysis are critical components of the organism's responses. Understanding their role in sepsis pathophysiology is the key to effective treatment. Relevant studies were identified by a systematic literature search, complemented by manual search of individual citations. Using PubMed, 'sepsis' yields more than 62,000 references, 'plasminogen activators' more than 21,000. The selection of citations was guided by preference for reviews that expand important threads of argumentation. Single original studies were included when relevant to critical points. This analytical review describes the essential elements of pathophysiology and the current status of sepsis treatment. Based on this context, an emerging therapeutic option will be discussed: plasminogen activators.

Antithrombin and near-fatal exertional heat stroke

Heat waves result in excess deaths, excess emergency department visits, and intensive care unit admissions for heat stroke. We describe the clinical features and 3-month outcome of a patient with near-fatal heat stroke, admitted to our intensive care unit in July, 2001. After heavily working for hours at a construction site during a heat wave, the 28-year-old male presented with 41.4 degrees C body temperature and multiorgan failure, consisting of neurological impairment, rhabdomyolysis, acute renal failure, disseminated intravascular coagulation, and acute respiratory distress syndrome (ARDS). In the first week there was no evidence of infection. Treatment included cooling, aggressive volume resuscitation, administration of antithrombin-III concentrates and steroids. The patient survived and recovered normal neurological, renal, respiratory and haematological function, and no disability persisted. This case illustrates survival and complete recovery after multiorgan failure in heat stroke with vigorous intensive care. Treatment with antithrombin and steroids and may well have contributed to the favourable outcome. Correction of reduced antithrombin III levels to supranormal by therapeutic administration of antithrombin III concentrate in disseminated intravascular coagulation of heat stroke was not associated with any bleeding complications.

Lung epithelial fluid transport and the resolution of pulmonary edema

The discovery of mechanisms that regulate salt and water transport by the alveolar and distal airway epithelium of the lung has generated new insights into the regulation of lung fluid balance under both normal and pathological conditions. There is convincing evidence that active sodium and chloride transporters are expressed in the distal lung epithelium and are responsible for the ability of the lung to remove alveolar fluid at the time of birth as well as in the mature lung when pathological conditions lead to the development of pulmonary edema. Currently, the best described molecular transporters are the epithelial sodium channel, the cystic fibrosis transmembrane conductance regulator, Na+-K+-ATPase, and several aquaporin water channels. Both catecholamine-dependent and -independent mechanisms can upregulate isosmolar fluid transport across the distal lung epithelium. Experimental and clinical studies have made it possible to examine the role of these transporters in the resolution of pulmonary edema.

Enzymic degradation of plasma arginine using arginine deiminase inhibits nitric oxide production and protects mice from the lethal effects of tumour necrosis factor alpha and endotoxin

Septic shock is mediated in part by nitric oxide (NO) and tumour necrosis factor alpha (TNFalpha). NO is synthesized primarily from extracellular arginine. We tested the ability of an arginine-degrading enzyme to inhibit NO production in mice and to protect mice from the hypotension and lethality that occur after the administration of TNFalpha or endotoxin. Treatment of BALB/c mice with arginine deiminase (ADI) formulated with succinimidyl succinimide polyethylene glycol of M(r) 20000 (ADI-SS PEG(20000)) eliminated all measurable plasma arginine (from normal levels of approximately 155 microM arginine to 2 microM). In addition, ADI-SS PEG(20000) also inhibited the production of NO, as quantified by plasma nitrate+nitrite. Treatment of mice with TNFalpha or endotoxin resulted in a dose-dependent increase in NO production and lethality. Pretreatment of mice with ADI-SS PEG(20000) resulted in increased resistance to the lethal effects of TNFalpha and endotoxin. These observations are consistent with NO production resulting, to some extent, from the metabolism of extracellular arginine. The toxic effects of TNFalpha and endotoxin may be partially inhibited by enzymic degradation of plasma arginine by ADI-SS PEG(20000). Interestingly, pretreatment with ADI-SS PEG(20000) did not inhibit the anti-tumour activity of TNFalpha in vitro or in vivo. This treatment may allow greater amounts of TNFalpha, as well as other cytokines, to be administered while abrogating side effects such as hypotension and death.

The pulmonary physician in critical care. 5: Acute lung injury and the acute respiratory distress syndrome: definitions and epidemiology

An understanding of the epidemiology of ALI/ARDS and the effects of treatment have been hampered by the lack of a uniform definition of the syndrome. Various definitions have been proposed, and these are reviewed with particular attention to how changes in definition have affected our understanding of the natural history and treatment options for the condition.

Clinical Acute Lung Injury and Acute Respiratory Distress Syndrome

This article provides a description of the clinical disorders associated with the development of acute noncardiogenic pulmonary edema, better known as clinical acute lung injury (ALI) or the acute respiratory distress syndrome (ARDS). Much has been learned about the mechanisms by which the lung is injured in patients with sepsis, pneumonia, aspiration of gastric contents, and following major trauma. In the last 5 years, major progress has been made in the treatment of patients with ALI/ARDS. A lung protective ventilatory strategy with a low tidal volume (6 mL/kg/predicted body weight) in conjunction with a plateau pressure limit of 30 cm H(2)0 attenuated the severity of clinical lung injury and reduced mortality by 22%. Ironically, after years of searching for anti-inflammatory treatments for ALI/ARDS, it turns out that a lung protective ventilatory strategy has proven to be the most efficacious anti-inflammatory treatment ever discovered for ALI/ARDS. However, it is still possible that pharmacologic treatments also may enhance survival. For example, a recent report that activated protein C reduces mortality in patients with sepsis raises hope that the incidence and severity of sepsis-induced ALI/ARDS may be reduced by treatment with this agent that has both anti-inflammatory and anticoagulant properties. Also, therapy directed at hastening the resolution of lung injury by increasing the functional recovery of the alveolar epithelium may be of value, both in diminishing the fibroproliferative phase of ALI/ARDS as well as accelerating the resolution of alveolar edema.

Physiological-dose steroid therapy in sepsis [ISRCTN36253388]

INTRODUCTION

The aim of the study was to assess the prognostic importance of basal cortisol concentrations and cortisol response to corticotropin, and to determine the effects of physiological dose steroid therapy on mortality in patients with sepsis.

METHODS

Basal cortisol level and corticotropin stimulation test were performed within 24 hours in all patients. One group (20 patients) received standard therapy for sepsis and physiological-dose steroid therapy for 10 days; the other group (20 patients) received only standard therapy for sepsis. Basal cortisol level was measured on the 14th day in patients who recovered. The outcome of sepsis was compared.

RESULTS

Only Sequential Organ Failure Assessment (SOFA) score was found related to mortality, independent from other factors in multivariate analysis. No significant difference was found between the changes in the percentage of SOFA scores of the steroid therapy group and the standard therapy group in survivors, nor between the groups in basal and peak cortisol levels, cortisol response to corticotropin test and mortality. The mortality rates among patients with occult adrenal insufficiencies were 40% in the steroid therapy group and 55.6% in the standard therapy group.

DISCUSSION

There was a trend towards a decrease in the mortality rates of the patients with sepsis who received physiological-dose steroid therapy. In the advancing process from sepsis to septic shock, adrenal insufficiency was not frequent as supposed. There was a trend (that did not reach significance) towards a decrease in the mortality rates of the patients with sepsis who received physiological-dose steroid therapy.

Coagulation inhibitors in the treatment of sepsis

Despite advances in supportive care, sepsis and septic shock continue to be major causes of morbidity and mortality in critically ill patients. The lack of efficacy of anti-inflammatory drugs in patients with sepsis has shifted interest toward developing alternative treatments. The observation that clotting system activation may in part underlie the physiological derangements of sepsis has resulted in efforts to target the clotting cascade as a therapeutic strategy. Anticoagulants have been shown to ameliorate physiological derangements and improve survival in animal sepsis models. Three agents have undergone extensive study in humans: recombinant human activated protein C (rhAPC, drotrecogin-alpha), antithrombin III (ATIII) and tissue factor pathway inhibitor (TFPI). While a recent Phase III study of rhAPC suggests a survival benefit in patients with sepsis, major concerns about this trial include the manner in which the study was conducted, the potential toxicity of rhAPC and the questionable efficacy of this agent in patients with low mortality risk. Further clinical testing of rhAPC appears to be necessary to better define the target population most appropriate for its use. In contrast, a large Phase III study of high dose ATIII in patients with sepsis failed to show a treatment benefit with this agent. Finally, while TFPI has undergone extensive preclinical and Phase II testing, the results of Phase III studies have not been published. In summary, while coagulation inhibitors may ultimately have a therapeutic role in selected subgroups of patients with sepsis, the efficacy and safety of this class of agents remain to be proven.

The effect of stress doses of hydrocortisone during septic shock on posttraumatic stress disorder in survivors

BACKGROUND

Exposure to intense physical and psychological stress during septic shock can result in posttraumatic stress disorder in survivors. Patients with chronic posttraumatic stress disorder often show sustained reductions in serum cortisol concentration. This investigation examines whether increasing serum cortisol levels with hydrocortisone treatment during septic shock reduces the incidence of posttraumatic stress disorder in survivors.

METHODS

Patients (n = 20) were recruited from a prospective, randomized double-blind study on the hemodynamic effects of hydrocortisone during septic shock. Eleven patients had received placebo and nine stress doses of hydrocortisone. Posttraumatic stress disorder was diagnosed 31 months (median) after intensive care unit discharge using SCID-IV (DSM-IV-criteria). Furthermore, the number of categories of traumatic memory from ICU treatment was determined in both groups at that time.

RESULTS

Only one of nine patients from the hydrocortisone group developed posttraumatic stress disorder, compared with seven of 11 patients in the placebo group (p =.02). There was no significant difference with regard to the number of categories of traumatic memory between the hydrocortisone and placebo groups.

CONCLUSIONS

The administration of hydrocortisone during septic shock in a dosage similar to the endogenous maximal production rate was associated with a lower incidence of posttraumatic stress disorder in long-term survivors, which seems to be independent of the number of categories of traumatic memory.

Recombinant human activated protein C, drotrecogin alfa (activated): a novel therapy for severe sepsis

Sepsis remains a major cause of death in hospitalized patients. Despite a massive research effort over the past 2 decades to identify innovative therapies for sepsis, current treatment strategies consist primarily of antiinfective agents and a variety of supportive measures. Activated protein C, an endogenous protein that inhibits thrombosis and inflammation while promoting fibrinolysis, plays an important role in the pathogenesis of sepsis. Recombinant human activated protein C, drotrecogin alfa (activated), when compared with placebo in a randomized, double-blind study of 1690 patients with severe sepsis (Recombinant Human Activated Protein C Worldwide Evaluation in Severe Sepsis [PROWESS] trial), decreased the relative risk of death at 28 days by 19.4% (95% confidence interval 6.6-30.5%, p=0.005), although there was a trend for more serious bleeding (3.5% vs 2.0%, p=0.06) with its use. Drotrecogin alfa is the first antisepsis drug found to have a mortality benefit. It should be administered only to patients with severe sepsis who meet the PROWESS study inclusion criteria and should be avoided when risk factors for bleeding are present. Ongoing research will help determine the cost-effectiveness of drotrecogin alfa, as well as its role in critically ill populations not studied in the PROWESS trial.

Immunotherapy of sepsis

Sepsis is a clinical syndrome that results from a systemic host response to an infection. The outcome of sepsis is poor, and mortality rates are as high as 30-40%. Sepsis is associated with the activation of multiple inflammatory pathways, including the cytokine network and the coagulation system. Sepsis can also result in an immunodepressed state that could leave patients more susceptible to secondary nosocomial infections. Modulation of the host response to infection has been studied as an adjunctive therapeutic approach in many preclinical investigations and clinical trials in the past 20 years. As a result of these studies our knowledge of the pathogenesis of sepsis has increased considerably. This review focuses on immunomodulatory strategies that have reached the phase of clinical evaluation in patients with sepsis.

Treatment of ARDS

Improved understanding of the pathogenesis of acute lung injury (ALI)/ARDS has led to important advances in the treatment of ALI/ARDS, particularly in the area of ventilator-associated lung injury. Standard supportive care for ALI/ARDS should now include a protective ventilatory strategy with low tidal volume ventilation by the protocol developed by the National Institutes of Health ARDS Network. Further refinements of the protocol for mechanical ventilation will occur as current and future clinical trials are completed. In addition, novel modes of mechanical ventilation are being studied and may augment standard therapy in the future. Although results of anti-inflammatory strategies have been disappointing in clinical trials, further trials are underway to test the efficacy of late corticosteroids and other approaches to modulation of inflammation in ALI/ARDS.