UMLS:C0036690 - FACTA Search

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

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

Despite significant advances in intensive care unit technology and mechanical ventilatory support, mortality due to adult respiratory distress syndrome (ARDS) or multiorgan failure (MOF) has not changed significantly within the past two decades. The key to improving survival requires understanding and modifying (or eliminating) factors that may initiate (or modulate) these syndromes. Infection, and the host responses to infection, are major etiological factors responsible for the induction and perpetuation of the injury to the lung and microvasculature in ARDS and MOF, and contribute to late mortality. While the pathogenesis of ARDS and MOF-complicating sepsis remains to be elucidated, bacterially derived (eg, endotoxin or lipopolysaccharides [LPS]) and host-derived humoral and cellular mediators are of importance in both disease states. In fact, the host response to infection (or injurious stimuli) may be a more critical determinant of the outcome of sepsis and ARDS than the original inciting stimulus. The pleiotropic effects of LPS are largely indirect, and are orchestrated via its ability to trigger the release of an array of host-derived mediators of inflammation. Several potential mechanisms of injury in ARDS, sepsis, and MOF have been suggested and include a variety of inflammatory cells (neutrophils, mononuclear phagocytes, platelets), activated complement and coagulation components, vasoactive mediators (kinins, arachidonic acid metabolites, lipids, peptides), reactive oxygen radicals, and diverse cytokines. Interactions between these humoral and cellular mediators appear to set in motion an amplified cascade of events culminating in cellular and tissue injury. In this article, several of these putative inflammatory mediators are discussed in detail, and the importance of cytokine networking and the possible role of nonimmune cells in the orchestration of the inflammatory response associated with ARDS and MOF are explained. Finally, future therapeutic strategies aimed at blocking or suppressing the release or effects of endogenous mediators may be the key to improving the outcome of these disorders.
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PMID:Host responses in mediating sepsis and adult respiratory distress syndrome. 212 91

Trauma causes more years of lost life than any other cause of death. Traumatic shock and sepsis are the most common late causes of death following trauma. Traumatic shock and sepsis cause multiple organ failure. The most common organ to fail is the lung, which develops Adult Respiratory Distress Syndrome (ARDS). ARDS can be caused by Disseminated Intravascular Coagulation (DIC) with microscopic clots in the lungs. Trauma causes hemolysis and the red cell stroma may initiate DIC. Plasminogen activators, which causes lysis of blood clot, can lyse pulmonary microthrombi and prevent the onset of ARDS even when given several hours after the trauma.
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PMID:A new treatment for traumatic shock and ARDS. 215 24

Our laboratory has previously shown that the administration of tumor necrosis factor (TNF), a cytokine produced by activated mononuclear cells, to guinea pigs produces a syndrome similar to gram-negative sepsis or ARDS. Pentoxifylline (PTX), a methylxanthine, protects against TNF-induced and sepsis-induced acute lung injury in vivo. We now report on in vitro cellular studies of PMN-mediated cellular injury and its attenuation. We studied TNF-induced bovine pulmonary artery endothelial cell (EC) cytotoxicity both with and without PMN. A 51Cr release assay was used to measure EC damage. Further, we investigated PMN function in response to TNF by measuring chemiluminescence. Agents that attenuate EC damage and PMN activation were evaluated in the above assays. Results revealed that TNF causes EC injury (p less than 0.05) and PMN increase TNF-induced EC injury. Furthermore, PTX, aminophylline (AMPH), caffeine, and forskolin attenuate TNF-induced EC cytotoxicity only in the presence of PMN (p less than 0.05). Of interest, dibutyryl cAMP (DBcAMP) protects EC from TNF-induced injury both with and without PMN. Agents that may increase cAMP levels in PMN (PTX, DBcAMP, forskolin, isobutyl methylxanthine, and terbutaline) significantly attenuate TNF-induced PMN chemiluminescence (p less than 0.05). We conclude that TNF causes EC damage and PMN increase this damage. Furthermore, PTX, AMPH, caffeine, and forskolin can attenuate TNF-induced EC injury in the presence of PMN, whereas DBcAMP attenuates TNF-induced EC injury with and without PMN. In addition, agents that may increase intracellular cAMP levels in PMN can attenuate TNF-induced PMN chemiluminescence. Thus, these agents likely attenuate TNF-induced PMN-mediated EC injury through their inhibitory effects on PMN.
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PMID:Attenuation of tumor necrosis factor-induced endothelial cell cytotoxicity and neutrophil chemiluminescence. 217 54

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 present work deals with the problem of abdominal injuries in polytraumatized patients. The results were obtained from a retrospective study of the records of 530 polytraumatized patients treated at the Central Hospital of the German Federal Armed Forces (Bundeswehr). In all, 193 of these patients had abdominal injuries. The overall mortality was 23.8% (n = 126): mortality among the patients with abdominal injuries was 26% (n = 50). Abdominal injuries alone led to death in 9.1% (n = 1), but mortality increased to 18.4% when at least one extra-abdominal injuries was also present. A combination of abdominal injuries and two or more extra-abdominal lesion led to a mortality rate of 27%. Mortality was found to be age- and sex-related: in young children and patients over 55 years (especially those around 70) mortality was 33.3%-72%. Among the cases with fatal outcome there was a female-to-male ratio of 3:2. The most common causes of death were: hemorrhage shock (62.3%), head injuries (37.7%), septicemia (8.1%), pneumonia, and ARDS (5.4% each). Within the last eight years we have used the following supplementary examination methods: computed tomography, peritoneal lavage, and ultrasonography. The retrospective study has shown that CT is not the examination of choice. The reliability with lavage and ultrasonography was approximately the same, but lavage was found to be more dangerous. Therefore, we abandoned lavage and used sonography only. However, we are of the opinion that any surgeon should use the examination method that has yielded the best results for him or her, to ensure the best possible outcome for the patient.
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PMID:[Poly-, multiple trauma and intra-abdominal injuries]. 220 Jan 29

A 32-year-old woman with liver failure from end-stage cirrhosis and ulcerative colitis developed septicemia and severe ARDS. Subtotal colectomy and a successful liver transplantation resulted in complete resolution of the ARDS.
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PMID:Resolution of the adult respiratory distress syndrome following colectomy and liver transplantation. 220 14

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

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