UMLS:C0243026 - FACTA Search

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Since its first description in 1967, the mortality of the adult respiratory distress syndrome (ARDS) has remained unchanged despite the increasing sophistication of supportive techniques. Few patients now die of refractory hypoxemia, the majority succumbing to the multiple systems organ failure syndrome, commonly due to sepsis. Sepsis is both the most common cause of ARDS, usually involving the abdomen, and the most frequent complication, usually affecting the lungs. ARDS is, thus, increasingly seen as the pulmonary component of multiple systems organ failure, triggered by the systemic response to sepsis. In critically ill patients, impairment of hepatic function and of the barrier function of the gut mucosa allows translocation of endotoxin derived from the aerobic Gram-negative bacteria within the gut. This releases mediators which are responsible for the activation of cellular and humoral cascades, resulting in the pathological changes seen in ARDS. This sequence of events underlines the importance of therapies directed at abnormal colonization of the gastrointestinal tract and elimination of the gut endotoxin pool. Selective decontamination of the digestive tract is attractive in that it attacks the problem from 2 sides: first, by eliminating colonization, it appears effective in preventing secondary infection and, second, it may also play a role in reducing the enteric endotoxin pool. Recent descriptions of pathological oxygen supply dependency in both ARDS and septic patients emphasize the similarity of pathophysiological abnormalities in the 2 conditions. Intensive supportive therapy to achieve adequate oxygen transport and aggressive investigation and surgical management of septic foci are the cornerstones of management of the established syndrome.
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PMID:Intraabdominal infection: pulmonary failure. 218 82

ARDS is a complex type of respiratory failure that usually is a complication of a catastrophic critical illness, such as shock. Mortality is high, especially in patients with septic shock and multisystem failure. Mortality often is related to complications of refractory hypoxemia. Identifying patients at risk for developing ARDS and early recognition of ARDS are important so that treatment can be initiated to prevent the potentially lethal consequences of refractory hypoxemia. The nurse has an important role in collaborating with the physician and respiratory therapist to support the patient's oxygenation, ventilation, and tissue oxygen delivery system. The nurse is responsible for performing highly sophisticated assessment of clinical and hemodynamic parameters to evaluate the effectiveness of therapy. A key role of the nurse is anticipating, recognizing, and reporting to the physician complications of hypoxemia and complications of therapy that can lead to sepsis, airway trauma, or failure of other organ systems.
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PMID:Adult respiratory distress syndrome. A complication of shock. 219 28

The usefulness of urinastatin (UST) for adult respiratory distress syndrome (ARDS) induced by gram-negative sepsis was evaluated in clinical and experimental studies. Twelve cases of clinical septic ARDS were treated with combination therapy of UST and methylprednisolone (M-PSL). Ten out of 12 responded favorably. This result was considered to some extent to be better than that of our previous experience with single administration of M-PSL for patients with septic ARDS. Pathophysiologic experiments on UST in endotoxic status were then performed. Immediately after the intravenous administration of endotoxin to rats, serum levels of beta-glucuronidase and elastase released from PMNs were increased and pulmonary edema was observed at 48-hours after the endotoxin injection. Various degrees of pulmonary edema were also observed by the intravenous administration of beta-glucuronidase and PMNs-elastase. These changes induced by the endotoxin were significantly inhibited by the intraperitoneal administration of UST, and they were inhibited more by the combination therapy of UST and M-PSL. In an in vitro study, significantly large amounts of beta-glucuronidase and elastase were released from PMNs by incubating human PMNs with endotoxin. By adding UST to this system, the release of these PMNs proteases was inhibited. These results suggested that UST neutralizes the PMNs-elastase release in the status endotoxemics, and consequently resulted in a better prognosis in cases of septic ARDS.
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PMID:[Usefulness of a protease inhibitor (urinastatin) in ARDS with infectious diseases]. 221 25

In sheep, endotoxin (LPS) causes pulmonary hypertension, hypoxemia, leukopenia, exudation of protein-rich lung lymph, reduced dynamic compliance (Cdyn), and increased resistance to airflow (RL), changes similar to those seen in human sepsis and sepsis-induced ARDS. We used well-described methods in the awake sheep-endotoxin model to evaluate the effectiveness of a commercially manufactured antibody to prevent the physiologic changes of endotoxemia. In awake sheep with chronic lung lymph fistulas, we used a whole-body plethysmograph to measure Cdyn, RL, and FRC. Pulmonary artery, left atrial, and systemic arterial pressures were recorded continuously. Arterial blood gases (for calculating AaPO2), leukocyte counts, and lymph samples were collected every 30 min. Animals received a 30-min (2 mg/kg) infusion of antiendotoxin antibody 4 h before LPS (0.75 micrograms/kg) challenge (n = 4), or were given a mixture of LPS (0.75 micrograms/kg) and antibody (2 mg/kg) that had been incubated in vitro at 37 degrees C for 30 min before infusion (n = 6). A control group given only 2 mg/kg of antibody (n = 4) showed no change in any measured parameter, whereas control animals receiving LPS alone (n = 6) exhibited a typical endotoxin response. In all animals receiving endotoxin, Cdyn declined by approximately 50% within 30 to 60 min, and RL increased approximately sixfold over a similar time course. Accompanying the abnormalities in lung mechanics were pulmonary hypertension, leukopenia, and widening of the AaPO2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Studies of an antiendotoxin antibody in preventing the physiologic changes of endotoxemia in awake sheep. 222 82

Pulmonary dysfunction after cardiopulmonary bypass has been attributed to the damaging effects of complement activation on the lung. To further explore this phenomenon, we measured plasma levels of activated complement components (radioimmunoassay), assessed neutrophil n-formyl-methionyl-leucyl-phenylalanine (FMLP) receptor status (radioligand saturation binding assay), and quantified pulmonary epithelial permeability as radioaerosol lung clearance of technetium 99m-labeled diethylenetriamine pentaacetic acid in a series of 8 patients undergoing cardiopulmonary bypass. Significant elevations of plasma C3adesArg, C4adesArg, and C5adesArg levels were seen just after CPB, indicating activation of both the classic and alternate complement pathways. Neutrophil activation was evident as increased expression of neutrophil FMLP surface receptors after bypass. Despite the presence of complement and neutrophil activation, increased pulmonary epithelial permeability was not seen. These data support the hypothesis that complement and neutrophil activation during cardiopulmonary bypass is not associated with acute lung injury, at least not pulmonary epithelial injury. One can therefore infer that increased pulmonary epithelial permeability in patients at high risk for and experiencing sepsis-induced and trauma-induced adult respiratory distress syndrome may be due to factors other than complement and neutrophil activation.
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PMID:Complement activation and lung permeability during cardiopulmonary bypass. 201 41

The direction of force impact, lateral or frontal crash force, was estimated from the mechanism of pelvic fracture (PF) and related to the pattern of organ injuries, physiologic consequences, and outcomes in 197 motor vehicle accident (MVA) patients who had all sustained a PF. These data showed that injuries due to anterior-posterior compression (APC) (frontal crashes) were associated with injuries of major severity to the bony pelvis with major retroperitoneal bleeding and massive volume loss shock. Death in the APC patient was frequently due to a late complication of the shock: sepsis, adult respiratory distress syndrome (ARDS), or lung infection. However, in lateral compression (LC) injuries (lateral crashes) with fatal outcomes, there was a significant increase in severe brain injuries and a rise in lung and upper abdominal visceral injuries with relatively minor PF. These data suggest the great vulnerability of the MVA patient, driver or passenger, to lateral crash forces and suggest important areas for occupant protection.
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PMID:Pattern of organ injuries in pelvic fracture: impact force implications for survival and death in motor vehicle injuries. 222 8

Oxygen consumption is pathologically dependent on oxygen delivery in ARDS and sepsis. We asked whether oxygen consumption is dependent on oxygen delivery in severe acute respiratory failure secondary to AIDS-related PCP. In five patients who had AIDS-related PCP, diffuse bilateral pulmonary infiltrates, no evidence of bacterial infection, and acute respiratory failure requiring mechanical ventilation with arterial oxygen tensions less than 75 mm Hg while breathing at least 50 percent oxygen, and PEEP greater than 10 cm H2O, we determined oxygen delivery and consumption by calculation from thermodilution cardiac output and arterial and mixed venous oxygen contents. Oxygen delivery was increased using transfusion of two units of packed red blood cells over one hour. Oxygen delivery increased 22 percent (638 +/- 204 to 778 +/- 201 ml/min.m2, p less than or equal to 0.006). Oxygen consumption increased 11 percent (134 +/- 34 to 149 +/- 29 ml/min.m2, p less than or equal to 0.02). The oxygen extraction ratio did not change. We conclude that similar to ARDS and sepsis, oxygen consumption may be pathologically dependent on oxygen delivery in patients who have severe acute respiratory failure secondary to AIDS-related PCP.
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PMID:Pathologic dependence of oxygen consumption on oxygen delivery in acute respiratory failure secondary to AIDS-related Pneumocystis carinii pneumonia. 224 89

Thirty-nine patients with adult respiratory distress syndrome (ARDS) were enrolled in a study to identify potential age-related changes in organ system function that may help explain the apparent association between age and poor outcome in these patients. Criteria for enrollment included an arterial PO2-to-inspired O2 concentration ratio less than or equal to 200 in a clinical setting consistent with ARDS. Patients were excluded if they were less than 18 yr old, had clinical manifestations of congestive heart failure, were seropositive for the human immunodeficiency virus, or had stage II metastatic lung cancer. Patients were divided into two groups: those less than 60 yr old (mean 42 +/- 3 yr, n = 17) and those greater than or equal to 60 yr old (73 +/- 2 yr, n = 16). A group of six patients was analyzed as a separate subset based on a body temperature less than or equal to 97.5 degrees F at enrollment (hypothermic patients, 73 +/- 4 yr old). Sepsis was present in 67% of the nonhypothermic patients and in all the hypothermic patients. Mortality rates were 12% in the patients less than 60 yr and 69% in the nonhypothermic patients greater than or equal to 60 yr. All the hypothermic patients died. Sequential data obtained over 6 days were compared within and between groups. The following results were obtained. 1) The ratio of arterial PO2 to inspired O2 fraction was greater and the positive end-expiratory pressure used was significantly less in the patients greater than or equal to 60 yr old compared with the younger group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Physiology of aging related to outcome in the adult respiratory distress syndrome. 224 69

Acute pulmonary failure or ARDS in severely injured patients continues to be a significant problem. The most important clinical risk factor identified is sepsis syndrome. Sepsis syndrome is the clinical correlate of a malignant systemic inflammatory process and is directed in large part by the tissue-fixed macrophage (M phi), such as the alveolar M phi. The M phi is capable of producing most of the central inflammatory mediators responsible for the pathophysiology seen during sepsis and organ injury. Two major mediators are procoagulant activity (PCA), leading to diffuse microvascular thrombosis, and tumor necrosis factor (TNF), causing much of the physiologic derangement of sepsis. Endotoxins (LPS) derived from Gram-negative bacterial cell walls are the primary inflammatory stimulus for the tissue-fixed M phi production of inflammatory mediators. It is not completely known how LPS interacts with its various cellular targets, but it is hoped that knowledge of the molecular interactions involved in stimulation of the M phi by endotoxin will lead to therapies to modulate the response and prevent deleterious processes such as ARDS. In the present studies, LPS from E. coli 0111:B4 was shown in a dose response to stimulate large levels of both PCA and TNF in alveolar M phi. LPS from Bacteroides fragilis and Lipid X (the monosaccharide precursor of endotoxin) were unable to cause stimulation of the M phi in vitro. However, both moieties, B. fragilis LPS and Lipid X, were able to effectively and specifically compete with E. coli LPS and block M phi stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endotoxin requirements for alveolar macrophage stimulation. 225 91

Systemic sepsis and pneumonia are common predisposing factors for ARDS, which can serve as the initial manifestation of the multisystem organ failure syndrome. Primary pneumonia that necessitates ICU admission leads to ARDS in approximately 10% of patients. Systemic infection can also lead to ARDS, but when bacteremia alone is present, the risk is low (probably less than 5%). If the septic syndrome with a hemodynamic and end-organ response develops, the ARDS may follow in as many as 40% of patients. When multiple risk factors for acute lung injury are present, the risk of developing ARDS rises dramatically. The septic syndrome, acute lung injury, and multiorgan failure are closely tied to one another because bacterial cell walls can activate inflammatory mediators, such as interleukin-1 and tumor necrosis factor, which can in turn lead to the septic syndrome and inflammatory injury to the lung. Clinical features, more than serum markers, have been the best predictors of whether lung injury will follow sepsis, indicating that the mere presence of mediators alone cannot cause ARDS and that there are individual susceptibility factors in the effects of these mediators. With the advent of monoclonal antibodies and new anti-inflammatory drugs, prevention of progression from sepsis to multiorgan failure may become possible. Pneumonia is the most common infection that complicates ARDS once it is established, and the mortality rate may approach 90%. The existence of acute lung injury, its predisposing conditions, coexisting illnesses, and the therapeutic interventions used for patients with lung injury all can interfere with lung host defenses and set the stage for bacterial infection of the already-injured lung. This infection appears to add to the propagation of the multiple system organ failure that has already begun. In the future, it may become possible to prevent this infection, which would be a welcome development, because currently, we are stymied in our efforts to diagnose and treat pneumonia in the setting of acute lung injury. Preventive efforts will follow from an understanding of the pathogenesis of pneumonia and in the future may include topical antibiotics, selective digestive decontamination, and prophylactic passive immunotherapy.
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PMID:Sepsis syndrome, the adult respiratory distress syndrome, and nosocomial pneumonia. A common clinical sequence. 226 94

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