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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty years have now elapsed since Ashbaugh and Petty first described the syndrome of acute respiratory failure associated with a wide spectrum of clinical conditions. During the past two decades, significant advances have emerged in our understanding of the clinical conditions associated with the syndrome and the pathophysiological changes affecting the alveolar-capillary membrane responsible for the characteristic non-cardiogenic pulmonary edema. Recent data have reaffirmed the notion that mortality rates in ARDS remain in excess of 60 percent, essentially unchanged since the first description of the syndrome, despite all the advances in critical care medicine in the intervening years. The incidence of ARDS has been difficult to establish because of lack of agreement on precise definition criteria. The lack of agreed definition criteria has hampered evaluation of the natural history of the syndrome, its epidemiology and mortality rates, and the efficacy or otherwise of a variety of therapeutic interventions. This review will highlight a recent, clinically appropriate, expanded definition of ARDS. New understandings of the roles of sepsis and multi-system organ failure in mortality associated with ARDS will be discussed. Several mediators, both locally in the lung and in the systemic circulation, have been implicated in the pathophysiology of ARDS. This review will discuss the evidence for and against neutrophils, platelets, cytokines derived from mononuclear cells and macrophages, complement, prostaglandins/leukotrienes, oxygen-derived radicals, and a variety of proteases. Current treatment strategies for ARDS are designed to increase tissue oxygen delivery by increasing arterial oxygen tension and cardiac output while simultaneously attenuating the pulmonary and systemic injury by appropriate pharmacologic and surgical interventions. Recent data advocating pharmacological augmentation of cardiac index and oxygen delivery will be highlighted. The persistently high mortality rates of 60-70 percent in patients with established ARDS have provoked recurring interest in new techniques of providing mechanical ventilation. Most studies have shown, however, that mortality in ARDS patients is attributable mainly to sepsis and multi-system organ failure rather than primarily to respiratory failure. Established and speculative intervention to reduce sepsis and multi-system organ failure associated with ARDS will be featured in the review.
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PMID:Acute respiratory distress syndrome--two decades later. 181 55

Escherichia coli hemolysin, a transmembrane pore-forming exotoxin, is considered an important virulence factor. In the present study, the possible significance of hemolysin production was investigated in a model of septic lung failure through infusion of viable bacteria in isolated rabbit lungs; 10(4) to 10(7) E. coli/ml perfusate caused a dose- and time-dependent appearance of hemolysin, accompanied by release of potassium, thromboxane A2, and PGI2 into the perfusate. Concomitantly, marked pulmonary hypertension developed. Inhibitor studies suggested that the pressor response was predominantly mediated by pulmonary thromboxane generation. Administration of hemolysin-forming E. coli additionally caused a protracted, dose-dependent increase in the lung capillary filtration coefficient, followed by severe edema formation. The permeability increase was independent of lung prostanoid generation. An E. coli strain that releases an inactive form of hemolysin completely failed to provoke the described biophysical and biochemical responses. Preapplication of 2 x 10(8) human granulocytes was without effect in the present experimental model. We conclude that the hemolysin produced by low numbers of E. coli organisms can provoke thromboxane-mediated pulmonary hypertension and severe vascular leakage. E. coli hemolysin and, possibly, other related cytolysins may thus contribute directly to the pathogenesis of acute respiratory failure under conditions of sepsis or pneumonia.
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PMID:Lung vascular injury after administration of viable hemolysin-forming Escherichia coli in isolated rabbit lungs. 182 93

Patients with ARF and haematological malignancy (excluding myeloma), presenting to a single unit over 10 years were analyzed to see if patients likely to benefit from intensive renal supportive therapy could be identified. 31 episodes of ARF were identified in 29 patients (mean age 51 +/- 2.9 yr): 19 were associated with acute leukaemia (13 AML, 6 ALL); 10 with lymphoma. Acute tubular necrosis (ATN) was identified as the cause of ARF in 26 cases, with sepsis (96%) and exposure to nephrotoxic drugs (88%), especially aminoglycosides, being the commonest precipitating factors. Toxic levels of the latter were commonly documented. Patient survival was 45%. Requirement for mechanical ventilation resulted in a universally fatal outcome; age greater than 55 yr and the presence of CNS symptoms or signs were also significantly associated with a poor outcome. Non-ATN causes (urate nephropathy or obstruction) carried a better prognosis. However, only 4 patients (14%) lived for more than 6 months following ARF. Thus, although a subgroup of patients more likely to benefit from treatment can be identified, the overall prognosis is poor and limited by that of the underlying disease. The potential benefit of avoiding nephrotoxic drugs, especially aminoglycosides, in these patients is highlighted by this study.
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PMID:Acute renal failure associated with haematological malignancies: a review of 10 years experience. 188 80

Extracorporeal membrane oxygenation was introduced as a supplement ot mechanical ventilation in the treatment of two patients with severe acute respiratory failure and as heart assist in one patient with acute refractory cardiac failure after open heart surgery. The system includes a membrane oxygenator and a roller pump. The whole circuit is coated with partially degraded heparin covalently bound to the surface (Carmeda Bioactive Surface), reducing the need of systemic heparinization to a minimum. In the first case of acute respiratory failure a veno-venous bypass was employed, with cannulas in the right atrium and the femoral vein. Given a blood flow through the circuit of 2.5 l/min, ventilator settings could be favourably reduced. The patient was weaned off the bypass system after six days, off the ventilator after 120 days, and recovered completely. In two cases the system served as partial venoarterial bypass, and blood was returned to the ascending aorta. A 31 year-old male victim of a smoke inhalation lung injury was on bypass for four and a half days. He recovered completely after another 17 days of mechanical ventilation. A 68 year-old man with pump failure after cardiac surgery needed extracorporeal support as heart assist for seven days. On the eighth day he was weaned off intra-aortic balloon-pumping as well. Unfortunately, he died of septicemia, with multiple organ failure, 13 days later. The heparin-coated extracorporeal membrane oxygenation system may represent a major advancement in the treatment of critically ill patients in need of cardiopulmonary assist.
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PMID:[Extracorporeal membrane oxygenation. A therapeutic alternative in acute heart and/or pulmonary failure?]. 190 68

The patients with acute respiratory failure of different etiology are presented. The results of hemodynamic measurements together with those of oxygen transport and tissue oxygenation are given. The results reveal that in hypovolemic shock the transport system of oxygen and tissue oxygenation have been soon normalized by adequate therapy. However, more complicated is the condition of patients with sepsis and adult respiratory distress syndrome (ARDS) with disturbances in microcirculation. In them the oxygen uptake (VO2) is directly dependent upon the oxygen transport (DO2) i.e. much higher values of DO2 should be maintained by therapeutic measures than in conditions with intact microcirculation. According to their own experiences and data from the literature the authors consider that in patients with ARF in whom by the conventional methods the condition cannot be improved an invasive monitoring for following the hemodynamic measurements of oxygen transport and tissue oxygenation should be indicated for successful treatment.
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PMID:[Importance of measurement of systemic oxygen transport and tissue oxygenation in the treatment of acute respiratory insufficiency]. 210 53

To determine the magnitude, duration, and associated factors of perioperative changes in pulmonary function, we retrospectively reviewed the medical records of 145 patients who required preoperative mechanical ventilation for acute respiratory failure before undergoing 200 surgical procedures. Patients were grouped into five pulmonary diagnostic categories: (1) adult respiratory distress syndrome (ARDS) (n = 49); (2) pneumonia (n = 20); (3) atelectasis (n = 65); (4) congestive heart failure (n = 11); and (5) acute ventilatory failure (n = 55). Sixty patients underwent intra-abdominal surgery, 135 patients required surgery on the periphery, and five patients had a thoracotomy. For all patients, PaO2/FIO2 declined significantly from 321 mm Hg (mean) preoperatively to 258 mm Hg intraoperatively, and shunt fraction (Qs/QT) increased from 0.16 to 0.23 without a significant change in PaCO2. The magnitude of the increase in Qs/QT did not differ among pulmonary diagnostic groups. Preoperatively, patients undergoing laparotomy had lower PaO2/FIO2 (278 vs 340) and higher Qs/QT (0.19 vs 0.14) than patients requiring surgery on the periphery. Intraoperatively, Qs/QT increased more during abdominal procedures than during peripheral procedures. Intraoperative hypoxemia (PaO2/FIO2 less than 80 mm Hg) occurred during 13 procedures. Hypoxemic patients had a mean increase in Qs/QT of 0.20 (0.25 preoperatively to 0.45 intraoperatively), and a significant increase in PaCO2 from 38 mm Hg to 45 mm Hg intraoperatively). In general, these patients had ARDS (n = 10), sepsis (n = 10), a laparotomy (n = 9), and intraoperative mechanical ventilation via the Ohio Anesthesia ventilator (n = 8), a commonly used operating room ventilator. Their preoperative peak airway pressure (54 cm H2O) and minute ventilation (20 L/min) requirements exceeded the capabilities of the Ohio Anesthesia ventilator and likely contributed to impaired gas exchange intraoperatively. Within the first several hours postoperatively, PaO2/FIO2 recovered to preoperative levels in all patients, even in those who had severe intraoperative hypoxemia develop and who underwent laparotomy. We conclude that most patients with acute respiratory failure receiving preoperative mechanical ventilation experienced mild-to-moderate deterioration in intraoperative pulmonary oxygen exchange that rapidly returned to preoperative levels after surgery. We recommend that necessary surgery not be postponed by concern that pulmonary function will be worsened by surgery and anesthesia.
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PMID:Factors affecting perioperative pulmonary function in acute respiratory failure. 212 51

Plasma alpha-atrial natriuretic peptide (alpha-ANP) concentrations were measured during mechanical ventilation in nine patients with acute respiratory failure (ARF) associated with sepsis. The relationships between alpha-ANP and pulmonary hemodynamic variables were examined. A total of 22 measurements of alpha-ANP and other variables were obtained. The mean plasma alpha-ANP concentration of 22 measurements was 120.1 +/- 79.8 pg/ml (normal 31.7 +/- 12.0, mean +/- SD). Plasma alpha-ANP concentrations correlated with mean pulmonary artery pressure (MPAP) (r = .703, p less than .01) and pulmonary vascular resistance (PVR) (r = .606, p less than .01), but not with other variables. These findings suggest that alpha-ANP elevation may be related to the increases in MPAP and PVR in ARF associated with sepsis.
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PMID:Plasma alpha-atrial natriuretic peptide concentrations in acute respiratory failure associated with sepsis: preliminary study. 214 91

Acute respiratory failure (ARF) following trauma or sepsis has a mortality rate of 50% to 85%. The mainstays of treatment are mechanical ventilation and positive end-expiratory pressure (PEEP). In the past decade, many reports have claimed superiority of high frequency ventilation (HFV) in the treatment of ARF. We structured a prospective randomized trial of HFV versus conventional mechanical ventilation (CMV) in the treatment of acute respiratory failure. All patients admitted to the Surgical Intensive Care Unit (SICU) were eligible for the study. On admission patients identified for being at risk of developing acute respiratory failure were randomized to receive either HFV or CMV. Patients were treated to the same therapeutic endpoint (pH greater than 7.35, PaCO2 35 to 45 torr, PaO2/FIO2 greater than 225). Daily ventilatory support, fluid and drug requirements, and cardiopulmonary variables were recorded. One hundred thirteen patients were entered into the study. Of these, 100 completed the study (HFV n = 52, CMV n = 48) and 60 developed acute respiratory failure (HFV n = 32, CMV n = 28). Patients on HFV reached the therapeutic endpoint at a lower level of continuous positive airway pressure and mean airway pressure; however there were no differences in mortality, SICU days, hospital days, incidence of barotrauma, number of blood gases, or cardiovascular interventions. This report suggests that HFV offers no concrete advantages over CMV when applied in a prospective fashion for the treatment of acute respiratory failure.
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PMID:Comparison of conventional mechanical ventilation and high-frequency ventilation. A prospective, randomized trial in patients with respiratory failure. 218 51

Changes in organ blood flow (Q) produced by 20 cm H2O positive end-expiratory pressure (PEEP) were measured before and after the induction of hyperdynamic sepsis in nine unanesthetized sheep. During the baseline nonseptic study, PEEP was associated with a 9% fall in thermodilution-measured systemic Q, although arterial perfusing pressures were unaffected. Concurrently, microsphere-derived Q was maintained to the brain and heart, but fell to liver, spleen, pancreas, kidney, large intestine, and gastrocnemius. Twenty-four to 36 h after cecal ligation and perforation, a pre-PEEP septic study demonstrated an increase in all of the cardiac index (CI) (+43%) and systemic O2 delivery (+54%) when compared with the nonseptic study, whereas whole-body O2 extraction (-30%) was depressed. Although PEEP depressed systemic Q (-17%) during the septic study to a greater extent than during the nonseptic study (p less than 0.02), absolute organ Q fell only to pancreas, liver, and spleen. Relative to the simultaneous fall in the CI, Q to some splanchnic organs was not depressed by PEEP to the same magnitude in the septic as in the nonseptic study. When an infusion of Ringer's lactate (993 +/- 295 ml) subsequently restored systemic Q to pre-PEEP septic levels, individual flows that had been depressed by PEEP were not restored. Furthermore, Q-kidney continued to fall, such that the postfluid Q-kidney (-19%) was significantly less than was demonstrated in the pre-PEEP septic study. We postulate that differences noted in the distribution of organ Q between the nonseptic and hyperdynamic septic studies after the application of PEEP were secondary to the vasculopathy of sepsis and/or an alteration in the function of specific organ microcirculations. However, these data do not address whether the changes in organ Q distribution after a PEEP-mediated depression in systemic Q during sepsis significantly restricted tissue DO2. The inability to acutely reverse the PEEP-mediated changes in organ Q after restoring systemic Q by a fluid infusion also suggests the need to evaluate alternative methods of support to organ Q in acute respiratory failure secondary to sepsis when the addition of PEEP acutely depresses systemic DO2.
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PMID:Hyperdynamic sepsis modifies a PEEP-mediated redistribution in organ blood flows. 218 82

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


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