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Query: UMLS:C0014118 (endocarditis)
15,629 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prosthetic valve endocarditis may be considered present when two fo the following criteria are met: (1) two or more blood cultures are positive with the same organism in the absence of extracardiac infections, (2) evidence of bacterial endocarditis by histology or cultures is obtained from surgical or autopsy specimens, and/or (3) a clinical picture compatible with endocarditis (fever, new or changing regurgitant murmur, splenomegaly, hematuria, or evidence of peripheral emboli) is present. The overall incidence of PVE ranges from 0.98 to 4.4 per cent. Early and late PVE (that is endocarditis developing less than 60 and 60 or more days following valve implantation, respectively) accounts for 18 to 36 per cent and 64 to 82 per cent of infections, respectively. The overall mortality is 53 per cent and is higher in patients with early versus late PVE. Coagulase-negative staphylococci are responsible for a higher percentage of early (43 per cent) than late (28 per cent) infections. Streptococci are more common in late (27 per cent) than in early (3 per cent) PVE, while diphtheroids are most common in early PVE. The diagnosis of PVE may be difficult to establish, especially in patients with postoperative bacteremias who have other potential sources of extracardiac infections. Antimicrobial therapy is generally based on the susceptibility of the offending pathogen. With respect to the use of synergistic combinations, results are controversial, and most available data are derived from patients with native-valve endocarditis. Surgery remains an important aspect of treatment, and the mortality among patients who undergo early surgical intervention, particularly if their illness is complicated, is less than in those who are treated only with antibiotics. Indications for surgery include: (1) moderate-severe refractory congestive heart failure, (2) persistent bacteremia or fungemia, (3) multiple emboli, (4) myocardial abscesses, (5) relapsing PVE, and possibly (6) patients with clinical evidence of PVE and negative blood cultures and persistent fever despite 1 week or more of appropriate antibiotics. Pacemaker infections occur in less than 6 per cent of patients who undergo pacemaker insertion. These infections generally result from wound contamination at the time of surgery, and 75 per cent of infections are due to staphylococci. Staphylococcus aureus causes most infections occurring within 2 weeks after surgery, while S. epidermidis causes most later infections. The need to remove infected pacemakers is controversial.
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PMID:Infections of prosthetic heart valves and cardiac pacemakers. 266 79

We reviewed fourty-six patients who had undergone surgery for infective endocarditis in the past fifteen years and identified risk factors affecting the outcome. Twenty-nine patients had infection of the native valve only, 11 had infective endocarditis associated with congenital heart disease, and 6 had prosthetic valve endocarditis. Overall hospital mortality was 6.5%. Prosthetic valve endocarditis carried a higher mortality (33%) than native valve endocarditis (3.4% or congenital heart disease with infective endocarditis (0%). For the patients with active endocarditis, the early mortality rate was higher (13%) than with inactive endocarditis (3.2%). Staphylococcal infections were more likely to cause severe valve destruction and residual infection than streptococcal infection. Our results indicated that surgical management of infective endocarditis should be done after the completion of adequate antibiotic therapy. Early diagnosis should reduce the mortality, prevent fatal complications, and lead to qualitative improvement of infective endocarditis.
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PMID:[Surgical management of infective endocarditis]. 274 10

A case of Trichosporon beigelii prosthetic valve endocarditis is described. Prosthetic valve endocarditis developed in the patient, a 58-year-old woman with a history of rheumatic heart disease, 10 months after mitral valve surgery. A large left atrial fungus ball was present. Cultures of blood and valvular tissue were positive for T. beigelii. The organism was sensitive to amphotericin B, 5-fluorocytosine, ketoconazole, and miconazole.
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PMID:Prosthetic valve endocarditis caused by Trichosporon beigelii. 340 61

St. Jude Medical cardiac valve replacement was performed in 791 patients: 335 had aortic, 330 mitral, and 126 had multiple valve replacements. Follow-up extended from 4 to 64 months (mean 34 months) with a cumulative postoperative survival of 2,111 patient-years. The overall actuarial survival rate at 5 years was 76% +/- 3%. Late valve-related mortality occurred in 28 patients (1.33%/pt-yr) and was most often caused by anticoagulant-related hemorrhage. The linearized incidences of valve failure, thromboembolism, thrombotic obstruction, prosthetic valve endocarditis, periprosthetic leak, and all valve-related complications were as follows: 1.80% /pt-yr, 2.45% /pt-yr, 0.52% /pt-yr, 0.33% /pt-yr, 0.14% /pt-yr, and 4.0% /pt-yr, respectively. Actuarially, 94% +/- 2% of patients were free of valve-related mortality at 5 years; the corresponding figures for valve failure, thromboembolism, thrombotic obstruction, and all valve-related complications were 91% +/- 2%, 89% +/- 2%, 96% +/- 1%, and 83% +/- 3%, respectively. Prosthetic valve endocarditis was uniformly fatal, and 45% of patients with thrombotic obstruction died. The greater incidence of thrombotic obstruction after mitral valve replacement was statistically significant. The performance of the St. Jude Medical valve compares most favorably with other substitute valves. Nevertheless, it retains all the imperfections and hazards of other mechanical valves, most notably, thromboembolism and thrombotic obstruction.
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PMID:St. Jude Medical valve replacement. An evaluation of valve performance. 374 67

Valvular stenosis is an uncommon finding in bacterial endocarditis involving native cardiac valves. Prosthetic valve endocarditis, however, is more commonly associated with obstruction. Bioprosthetic cardiac valves may be particularly prone to this complication. A case of bioprosthetic tricuspid valve endocarditis with stenosis diagnosed by Doppler echocardiography and confirmed by operative findings is presented.
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PMID:Tricuspid stenosis in prosthetic valve endocarditis. Diagnosis by Doppler echocardiography. 380 44

The beneficial effect of prophylaxis for IE was studied in 229 patients with prosthetic heart valves in whom 287 diagnostic or therapeutic interventions were performed. The prevention used was similar to that recommended by the American Heart Association. Prosthetic valve endocarditis was not observed in any of these patients. This result was compared with that of 304 patients with prosthetic heart valves, in whom without any prevention 390 similar interventions were performed during the same observation period. The incidence of prosthetic valve endocarditis occurring within 14 days after the intervention was 1.5/100 interventions (n = 6). All patients had to be reoperated. One patient died perioperatively. Two more patients developed prosthetic valve endocarditis 8 and 13 weeks, respectively, after the initial intervention. This retrospective study documents the benefit of the prophylaxis for IE used.
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PMID:[Benefits of endocarditis prevention in patients with prosthetic heart valves]. 396 16

Infection of an intracardiac prosthesis, the incidence of which is about 2.5% among patients having undergone valve replacement, is a serious complication with considerable morbidity and mortality. Early prosthetic valve endocarditis (PVE), with an onset within 60 days of valve replacement, accounts for approximately one-third of all cases, while the remaining two-thirds, occur more than two months postoperatively (late prosthetic valve endocarditis). Prosthetic valve endocarditis is most commonly caused by Staphylococcus epidermidis, less frequently by viridans streptococci, Staphylococcus aureus, and gram-negative bacilli. The most likely pathogenetic mechanisms in prosthetic valve endocarditis are intraoperative contamination and postoperative infections at extracardiac sites. Prominent clinical features include fever, new or changing heart murmurs, leukocytosis, anemia and hematuria. The etiologic microorganism can be isolated in more than 90% of all cases. Patients with proven prosthetic valve endocarditis should be examined daily to detect signs of congestive heart failure and changes in murmurs; electrocardiographic monitoring is essential for documentation of arrhythmias. With limitations, echocardiography, especially two-dimensional, may help to demonstrate vegetations or valvular dehiscence. Cinefluoroscopy may reveal loosening or dehiscence of the sewing ring or impaired motion of a radio-opaque poppet due to thrombus or vegetation. Cardiac catheterization, not always necessary even when surgical intervention is anticipated, may provide valuable information on the degree of dysfunction, multiple valve involvement, left ventricular function and extent of concomitant coronary artery disease. In patients with mechanical valves, prosthetic valve endocarditis may be associated with a high incidence of valve ring and myocardial abscesses; the reported frequency of valve ring abscesses is lower with porcine heterografts. Infections on mechanical valves characteristically localize to the sewing ring with subsequent detachment of the prosthesis and valvular incompetence; infections on porcine heterografts tend to localize to the cusps, leading to valvular incompetence because of leaflet destruction. Large vegetations may result in functional stenosis. Over the last ten years the overall mortality of prosthetic valve endocarditis was 53.8%; 73.6% in early and 43% in late prosthetic valve endocarditis. More recently, however, the survival rate appears to be improving. In general, the mortality associated with prosthetic valve endocarditis caused by fungi and Staphylococcus aureus is highest and that of streptococci lowest.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Prosthetic valve endocarditis: an overview. 636 38

The authors summarize their experience of the management of 26 patients with prosthetic valve endocarditis. Out of 11 patients who did not undergo surgery, 8 were treated medically, with 9 early deaths (mortality 75%). 15 patients were treated surgically with 3 deaths caused by resistant infection (mortality 20%). Prosthetic valve endocarditis remains a dangerous complication of valve replacement, and the authors recommend immediate valve replacement in all patients with infected mechanical valves.
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PMID:[Prosthesis endocarditis--a surgical indication!]. 651 55

Prosthetic valve endocarditis due to Legionella pneumophila occurred in a woman who had aortic and mitral valve replacements with porcine xenografts. During surgery for persistent fever and aortic regurgitation due to presumed endocarditis, she had vegetations involving both the aortic and mitral valve prostheses with a circumferential abscess of the aortic annulus. Cultures, Dieterle stain, and direct fluorescent antibody stain of valve tissue, and subsequent measurements of serum antibody levels confirmed L. pneumophila as the infecting organism. This infection occurred in the absence of pneumonia. Legionella pneumophila must be considered a potential cause of culture-negative prosthetic valve endocarditis and should be sought in appropriate clinical circumstances.
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PMID:Prosthetic valve endocarditis caused by Legionella pneumophila. 670 45

Seventy-five episodes of prosthetic valve endocarditis from Staphylococcus epidermidis were studied retrospectively. Methicillin-resistant isolates caused 53 (87%) of 61 infections occurring within 1 year of surgery but only two of the nine after 1 year (p less than 0.001). Resistance to methicillin was heterogeneic and extended to the cephalosporins. Of 55 isolates, 43 (78%) were susceptible to gentamicin and all to vancomycin and rifampin. In 55 patients, prosthetic valve endocarditis was complicated by tissue invasion or valve dysfunction. Among these 55 patients, 30 of the 32 who were cured needed surgery. Prosthetic valve endocarditis from methicillin-resistant S. epidermidis was cured in 21 of 26 patients treated with vancomycin and 10 of 20 treated with beta-lactam antibiotic therapy (p = 0.055). Cure rates of patients treated with vancomycin but not beta-lactam antibiotics were increased by the addition of rifampin or gentamicin to therapy. Prosthetic valve endocarditis from methicillin-resistant S. epidermidis should be treated with vancomycin plus rifampin, or an aminoglycoside. Surgical intervention is important in treating complications of prosthetic valve endocarditis.
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PMID:Staphylococcus epidermidis causing prosthetic valve endocarditis: microbiologic and clinical observations as guides to therapy. 683 67


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