Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

For previously untreated patients receiving most chemotherapy regimens, primary prophylactic administration of granulocyte colony-stimulating factor (G-CSF) cannot be recommended. Secondary prophylactic G-CSF administration can lessen incidence of febrile neutropenia (FN) in subsequent cycles of chemotherapy in patients with a prior episode of FN. Physicians should consider chemotherapy dose reduction after neutropenic fever or severe or prolonged neutropenia after the previous cycle of treatment. Intervention with G-CSF in afebrile neutropenic patients is not recommended. For the majority of patients with FN, the available data do not clearly support the routine initiation of G-CSF as an adjunct to antibiotic therapy. However, certain FN patients may have prognostic factors that are predictive of clinical deterioration, such as pneumonia, hypotension, multiorgan dysfunction (sepsis syndrome), or fungal infection. The therapeutic use of G-CSF together with antibiotics may be reasonable in such high-risk patients. Empirical antifungal therapy is effective, especially for patients with neutropenia who were treated for seven days with empirical antibiotic therapy but remained febrile, or became afebrile but then had recurrent fever. The patient's overall clinical status and laboratory parameters are both considered when deciding to transfuse a patient. Epoetin may be available for use in the future as a treatment option for patients with chemotherapy-associated anemia with a hemoglobin level less than 10 g/dl. Giving prophylactic platelets at a threshold of 10,000/microliter compared with 20,000/microliter can decrease the total utilization of platelets with only a small adverse effect on bleeding, and no statistically significant effect on morbidity.
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PMID:[Bone marrow suppression--including guidelines for the appropriate use of G-CSF]. 1285 40

Fungal infections in the critically ill patient are difficult to diagnose and are associated with a high mortality rate. A major obstacle to managing fungal infection is the lack of a reliable clinical assay that will rapidly identify patients with fungal sepsis. Glucans are polymers of glucose that are found in the cell wall of fungi and certain bacteria. Glucans are also released from the fungal cell wall into the extracellular milieu. Several studies have reported that detection of fungal glucan in serum or plasma is useful in the diagnosis of mycoses. However, recent studies have questioned the clinical utility of this assay. In this study, we examined serum glucan levels in intensive care unit (ICU) patients and attempt to correlate serum glucan levels with the presence of fungal infection. Following attainment of informed consent, serum was harvested from 46 ICU patients with confirmed fungal infections, confirmed bacterial infections, or no evidence of infection. Sera from eight healthy volunteers served as control. Serum glucan was assayed with a glucan-specific Limulus assay. Serum glucan levels were increased (69.6 +/- 17 pg/ml; P < 0.001) in ICU patients versus the normal (11.5 +/- 1.3 pg/ml) and noninfected ICU (27.4 +/- 17 pg/ml) controls. However, serum glucan levels were not different in patients with confirmed fungal infections versus those with confirmed bacterial infections. Thus, serum glucan levels did not show a correlation with the presence of fungal infections and do not appear to be specific for fungal infections. However, the assay may be useful as a negative predictor of infection.
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PMID:Serum glucan levels are not specific for presence of fungal infections in intensive care unit patients. 1296 21

Infectious complications occur in 60-100% of patients following high-dose chemotherapy (HDC) and autologous hematopoietic stem cell transplantation (HSCT), and are commonly caused by Gram-negative aerobic bacteria (such as Pseudomonas aeruginosa and enterobacteriacea e) and Gram-positive cocci (such as enterococci, streptococci and staphylococci), which should be covered by empiric first-line antibiotic therapy. Less frequently, infections are caused by fungi and anaerobic bacteria, and initial therapy does not necessarily have to cover coagulase-negative staphylococci, oxacillin-resistant S. aureus (MRSA), anaerobic bacteria and fungi. Patients who already receive antibiotics and develop pulmonary infiltrates should immediately be treated with systemic antifungals. Patients with fever and diarrhea or other signs and symptoms of gastrointestinal or perianal infection should be treated with antibiotics covering anaerobic bacteria and enterococci. Clinically stable patients with skin infections or central venous catheter-related infections can be treated with standard empiric antibiotic therapy including a beta-lactam active against Pseudomonas aeruginosa with or without an aminoglycoside, and should only receive glycopeptides if they do not respond to first-line therapy within 72 hours, become clinically unstable, have severe mucositis, or when resistance against the empiric antibiotics is demonstrated. Recombinant hematopoietic growth factors should not be added routinely but may be considered in life-threatening situations such as invasive pulmonary mycoses or sepsis.
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PMID:Antimicrobial therapy of febrile complications after high-dose chemo-/radiotherapy and autologous hematopoietic stem cell transplantation--guidelines of the Infectious Diseases Working Party (AGIHO) of the German Society of Hematology and Oncology (DGHO). 1368 Jan 66

Children with cancer receiving anticancer therapy always experience neutropenia, and as a result often develop serious neutropenic infections that cause morbidity and/or mortality. Intensive chemotherapy with improved supportive care for neutropenia contribute to the recent advances in treatment outcome in children with cancer. Recombinant human granulocyte colony-stimulating factor (G-CSF) and recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF) can shorten the duration and decrease the severity of neutropenia, and thus support intensive chemotherapy. Both G-CSF and GM-CSF stimulate proliferation and maturation of myeloid progenitor cells and are thus used to help mobilization of peripheral blood progenitor cells, and after stem-cell transplantation. The American Society of Clinical Oncology 2000 Guidelines recommended that colony-stimulating factors (CSFs) can be administered as a primary prophylaxis with a chemotherapy regimen if previous experiences with chemotherapy regimens have shown that the incidence of febrile neutropenia (neutropenic fever) is > or =40%. The routine use of CSFs for secondary prophylaxis or for patients with afebrile neutropenia is not recommended in order to avoid the overuse of CSFs. The use of a CSF may be considered in children with febrile neutropenia with a neutrophil count <100/microL, uncontrolled primary disease, pneumonia, hypotension, multiorgan dysfunction (sepsis syndrome), or invasive fungal infection. Although these guidelines are generally applicable to children with cancer, further studies on CSFs are certainly needed in pediatric oncology. The recent advances in granulocyte collection, using healthy volunteer donor stimulation with G-CSF and/or dexamethasone to yield large numbers of granulocytes has made granulocyte transfusion a more realistic option. Granulocyte transfusion has shown promising results in treating children with severe neutropenic infection; however, controlled trials are warranted to clarify the efficacy and cost-effectiveness of this procedure.
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PMID:The role of colony-stimulating factors and granulocyte transfusion in treatment options for neutropenia in children with cancer. 1451 Jun 25

Hepatic abscess caused by Aspergillus fumigatus infection is rare. The incidence of fungal hepatic abscess has recently increased. We report a case of Aspergillus fumigatus infection in a 66-year-old man with aplastic anemia who presented with intermittent high fever. He had received splenectomy about 2 years before this admission followed by treatment with anti-human thymocyte globulin, corticosteroids, and cyclosporin. Abdominal sonography and computerized tomography scan of the liver revealed a hepatic abscess and empiric broad-spectrum antibiotics were administered, but fever persisted. Culture of abscess aspirate yielded Aspergillus fumigatus. Amphotericin B was administered, but the patient died of sepsis. With the increasing number of immunocompromised patients, various fungal infections, including Aspergillus fumigatus, are increasingly common, and this infection can be very serious with fatal outcome. Alertness to the possibility that fungal infection may be present when an immunocompromised patient with hepatic abscess presents in hospital is important to decreasing morbidity and mortality.
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PMID:Hepatic abscess caused by Aspergillus fumigatus infection following splenectomy and immunosuppressive therapy. 1451 90

The early events of severe sepsis set in motion a cascade of events that significantly contributes to the morbidity and mortality observed during the first few days of this syndrome. Although sepsis is a deadly, acute disease, survivors also suffer long-term consequences. Clinical data underscore subsequent high mortality rates associated with patients who are long-term survivors of the acute septic episode. Within 1 year of surviving severe sepsis, there is a 26% predicted mortality rate, and many patients succumb to lung complications. In this review, we focus on the cellular and molecular mechanisms that dictate the longer-term sequela of sepsis and related lung injury. We have established a murine model of experimental sepsis [cecal ligation and puncture (CLP)], which results in an approximate 60% survival rate. Our studies have demonstrated that these survivors are susceptible to a fungal infection with 100% mortality when challenged 3 days or 15 days post-recovery from the initial CLP. This increased mortality correlates with changes in cytokines and Toll-like receptor expression and alterations in lung leukocyte populations. We hypothesize that the lung becomes predisposed to nosocomial infections for extended periods of time after severe sepsis via mechanisms that include alterations in inflammatory cytokines and an increase in immunomodulatory chemokines, such as monocyte chemoattractant protein-1 and C10. These mediators may alter the innate-immune response by affecting dendritic cells and macrophages, which could provide a mechanism for the immunosuppression observed following sepsis.
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PMID:The chronic consequences of severe sepsis. 1455 84

Treatment with antibodies against T-lymphocytes usually triggers a febrile response potentially mimicking or masking infection. Procalcitonin (PCT) is considered a sensitive and specific marker of systemic bacterial and fungal infection. It was the aim of this study to investigate the characteristics of PCT and C-reactive protein (CRP) during treatment with polyclonal or monoclonal anti-T-cell antibodies, in order to examine the ability of these parameters to distinguish between systemic bacterial infection and reaction to antibody treatment. Thus, 15 consecutive febrile episodes after T-cell antibody infusion without clinical signs of infection were compared with nine episodes of Gram-negative sepsis. After T-cell antibody infusion PCT and CRP serum levels increased to a similar extent as in Gram-negative sepsis. Therefore, during T-cell antibody treatment neither PCT nor CRP are adequate for differentiating between fever due to infection or to unspecific cytokine release.
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PMID:Procalcitonin and C-reactive protein do not discriminate between febrile reaction to anti-T-lymphocyte antibodies and Gram-negative sepsis. 1456 96

A single-center randomized, placebo-controlled trial has found that intravenous fluconazole prophylaxis in preterm infants < or = 1,000 g with a central venous catheter or endotracheal tube until such infants no longer required intravenous access or attained 6 weeks postnatal age was effective in preventing fungal sepsis. Infants at high risk for fungal sepsis are preterm infants < or = 32 weeks' gestation with one or more of the following additional risk factors: receipt of more than 2 antibiotics, third-generation cephalosporins, histamine-2 receptor antagonists, postnatal steroids, parenteral nutrition, or intravenous lipids; central venous catheter, skin disruption, dermatitis, necrotizing enterocolitis, or abdominal surgery. Further study in larger populations is needed to explore whether antifungal chemoprophylaxis or other strategies may be effective in preventing fungal infection in high-risk neonates. Effective prophylaxis strategies will decrease the high mortality and morbidity associated with fungal infection in high risk infants.
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PMID:Strategies for prevention of neonatal invasive candidiasis. 1462 6

Panniculitis-like T-cell lymphoma is an uncommon type of extranodal T-cell lymphoma which presents clinically with subcutaneous nodules. The clinical course can either be indolent or rapidly progressive, often complicated by hemophagocytic syndrome. We report a patient with primary subcutaneous disease and initial complete response to combination chemotherapy. The patient experienced an early relapse which responded to salvage chemotherapy. However, she died shortly thereafter with hemophagocytic syndrome, polymicrobial sepsis and systemic fungal infection. At autopsy there was no evidence of lymphoma in the bone marrow or other organs. We emphasize that a fatal hemophagocytic syndrome can occur despite minimal or even without evidence: of clinically active lymphoma as demonstrated by autopsy in this case.
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PMID:Fatal hemophagocytic syndrome in a patient with panniculitis-like T-cell lymphoma and no clinical evidence of disease. 1469 37

Bronchiectasis is primarily the result of airway injury and remodeling attributable to recurrent or chronic inflammation and infection. The underlying etiologies include autoimmune diseases, severe infections, genetic abnormalities, and acquired disorders. Recurrent airway inflammation and infection may also be the result of allergic or immunodeficiency states such as allergic bronchopulmonary mycoses or HIV/AIDS. Bronchiectasis should be included in the differentiation diagnosis of any patient with chronic respiratory complaints such as cough and sputum production. Early clinical manifestations may be subtle. Hallmarks of severe bronchiectasis include fetid breath, chronic cough, and sputum production. The associated chronic respiratory infections and airway sepsis are punctuated by episodes of acute exacerbation. Prompt recognition and treatment of bronchiectasis may allow for prevention of disease progression and irreversible loss of lung function. This review of severe non-cystic fibrosis bronchiectasis describes the current pathophysiology, clinical presentations, and management of bronchiectasis. We review how impaired airway clearance and the inability to resolve infection and inflammation creates a vicious cycle of recurrent injury. The common clinical features of bronchiectasis and findings are presented and illustrated by radiographic images. The common species and significance of various organisms often recovered from the distal airways including: tuberculous and environmental mycobacteria, aspergillus, and bacteria such as Pseudomonas aeruginosa will be covered. Management strategies including sputum surveillance, sputum clearance, antimicrobial therapy including antifungal and antimyobacterial agents as well as the evidence for the use of inhalational and anti-inflammatory therapies such as corticosteroids are also discussed. Recommendations for the work-up and therapy of complications including hemoptysis and respiratory failure are presented.
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PMID:Severe bronchiectasis. 1471 69


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