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Query: UMLS:C0014118 (endocarditis)
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Still streptococci play the most important role as causatives of infective endocarditis. As change in composition of patient groups has taken place gradually pathogens like Staphylococcus epidermidis, enterococci, gram-negative rods and Candida species become more and more important now. Providing high-level accuracy if applied according to current rules blood culture is yet the basis for endocarditis caused by popular bacterial pathogens. If infection due to Candida species is suspected additional measuring of antibody response may be helpful in supporting the tentative diagnosis. Rare pathogens like Rickettsiae and Mycoplasma sp. must be considered for differential diagnosis, as infections caused by these organisms are to be identified by serological methods in first line.
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PMID:[Microbial spectrum and microbiological diagnosis of infectious endocarditis]. 185 6

The results of the experimental analysis reported in this and the two preceding papers (10, 11) indicate that in murine pneumococcal infections penicillin per se destroys the invading organisms only in those parts of the lesions where the bacteria are multiplying rapidly and are thus maximally susceptible to the bactericidal action of the drug. In areas where the bacterial growth rate is slowed, either because the pneumococci have reached a maximum population density, or because the accumulated exudate affords a relatively poor medium for rapid growth, the destructive effect of the antibiotic is greatly diminished. In such portions of the lessions the cellular defenses of the host are observed to play a major role in eliminating the bacteria. In sites where frank suppuration has developed, however, even the combined actions of the penicillin and the cellular defenses of the host are relatively ineffective in ridding the tissues of bacteria. Here, because of the poor medium provided by the pus, the pneumococci remain metabolically sluggish and therefore are not killed rapidly by the penicillin. At the same time the leucocytes in the necrotic exudate have deteriorated to the point where they cannot effectively perform their phagocytic functions. As a result, bacteria persist in such lesions for many days in spite of the most intensive penicillin treatment administered both locally and systemically. A strict analogy cannot be drawn between the action of penicillin upon specific pneumococcal lesions produced in the laboratory and its effect upon acute bacterial infections in man. Host-parasite relationships in acute bacterial infections are determined not only by the strain of parasite and the specific host involved, but also by the site in the body at which the infection occurs (16). Nevertheless, in spite of the number of variables involved, it may be possible, by means of selected laboratory models, to illustrate general principles of infection which in all probability apply to human disease. Bearing in mind the limitations of the methods employed in the present experiments, it would appear justifiable to draw the following conclusions concerning the clinical use of penicillin in acute infections caused by penicillin-sensitive bacteria. The earlier that treatment is begun the more likely is penicillin to effectuate a rapid cure. When therapy is started before the bacteria have reached a maximum population density in any part of the lesion, and before a cellular exudate is formed, the great majority of the infecting organisms will be in a state of active multiplication and thus will be killed promptiy by the bactericidal action of the drug. If, on the other hand, treatment is delayed until the bacterial growth has attained its maximum in older parts of the lesion, and the inflammatory reaction has become well advanced, the resultant slowing of bacterial metabolism will so interfere with the bactericidal action of the penicillin that ultimate destruction of many of the bacteria will have to depend upon the slower clearing effect of the phagocytic cells. In such instances of delayed therapy specific antibody, which is formed relatively slowly, may play an important role in recovery (6). If relapse is to be avoided, however, penicillin therapy must often be continued longer in well established infections than in those treated at a very early stage. Still further delay in treating infections which are prone to cause tissue destruction and suppuration, may lead to the establishment of abscesses. Fully developed abscesses often will not respond to chemotherapy alone; they will ultimately require drainage. As shown by the present murine experiments, the relative ineffectiveness of penicillin under these circumstances is due not only to the failure of the drug to kill the metabolically sluggish bacteria surviving in the pus, but also to the ineffectiveness of the phagocytic cells, most of which are non-motile or dead. Even if specific antibody gains access to such purulent foci, many of the bacteria will continue to survive because of the degenerated state of the leucocytes. It is evident, therefore, that the stage of the infection at which penicillin treatment is begun is often crucial. Equally critical may be the location of the infection. Bacterial lesions in different sites of the body vary greatly in their responses to penicillin therapy. This inconstancy of therapeutic effectiveness is due primarily to the participation of host factors of defense which differ widely in various tissues and at the same time play a major role in the curative action of the antibiotic. In cases of pneumococcal pneumonia, for example, in which each milliliter of the patient's blood contains more than 1000 pneumococci, blood cultures may become negative in a matter of minutes after the start of intensive treatment (17). The remarkable promptness with which penicillin therapy controls such acute bacteriemia is due, first, to its suppressive effect upon the primary infection in the lungs and regional lymph nodes from which the bacteria are being poured into the blood stream (16) and, secondly, to its synergistic action with the cellular defenses of the circulation. The latter are known to be extraordinarily efficient, perhaps more so than in any other tissue of the body (18). Assisting them in destroying the circulating bacteria is the penicillin's own bactericidal effect, which operates rapidly upon the metabolically active organisms in the plasma. Rarely, if ever, as they often do in other tissues of the body (10), do bacteria in the bloodstream reach such numbers, or do inflammatory cells accumulate intravascularly to such an extent, as to create metabolic conditions which depress the bactericidal actions of the antibiotic. In contrast, more prolonged and extensive penicillin therapy is needed to cure pneumococcal endocarditis (19), meningitis (19, 20), or infections of the serous cavities (3, 4). The cellular defenses of the heart valves and of the "open" fluid-containing cavities of the body are relatively inefficient as compared to those that operate in the bloodstream and in tissues with tightiy knit architectures such as the lungs and lymph nodes (16). In endocarditis relatively few phagocytic cells ever reach the site of the offending bacteria (21), and in infections of fluid-containing cavities, the phagocytic efficiency of the mobilized leucocytes is seriously interfered with by the "dilution effect" of the fluid (22, 23). Accordingly, final destruction of the bacteria must depend primarily upon the bactericidal effect of the antibiotic itself, since little assistance is provided by phagocytosis. It is no wonder, therefore, that such infections, as compared to bacteriemia, are relatively refractory to penicillin therapy. Certainly penicillin, in spite of its remarkable therapeutic properties, falls far short of being a therapia sterilans magna (24). Its effectiveness does not depend solely upon the inherent susceptibility of the infecting agent to its antimicrobial action. How readily it will cure a given infection is determined also by the state of growth of the bacteria in the various zones of the lesions, the influence of the purulent exudate upon the bactericidal action of the drug, and the destructive effect of the inflammatory phagocytes upon the invading bacteria. Optimal use of penicillin as a therapeutic agent requires due consideration of all of these factors. Finally, it should be emphasized that the conclusions drawn from this experimental analysis cannot be applied to antibiotic therapy in general. They pertain only to the action of penicillin in acute infections caused by penicillin-sensitive bacteria which act in the host as extracellular parasites (16). The most common human infections included in this category are those caused by pneumococci and Group A beta hemolytic streptococci.(7) Whether they apply also to infections due to penicillin-sensitive staphylococci may be questioned because of recent evidence that certain pathogenic strains will survive phagocytosis (27). In diseases such as tuberculosis, brucellosis, and typhoid fever, which are treated with antibiotics having properties different from those of penicillin (28) and which are caused by bacteria capable of intracellular parasitism (28), factors other than those considered in the present analysis must certainly be involved in the curative effect of antimicrobial therapy.
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PMID:An experimental analysis of the curative action of penicillin in acute bacterial infections. III. The effect of suppuration upon the antibacterial action of the drug. 1330 59

Still after 40 years of heart valve prostheses intensive development ideal valve substitute still does not exist. Aortic allograft represents one alternative which could be used for aortic and/or pulmonary valve replacement. This type of biological heart valve prosthesis is being currently discussed from the point of view of Tissue Banking, as well as from clinical aspects--e.g. surgical implantation technique and long term results. Live issue remains particularly the aortic allograft implantation into the aortic position. The authors discuss the aortic allograft role in the aortic valve infectious endocarditis treatment, which was widespread worldwide and accepted. Aortic allograft implantation is considered as a method of choice in that particular indication, especially in prosthetic aortic valve endocarditis and in left ventricle outlet tract destruction cases. The method is considered to be more technically demanding than routine heart valve surgery (heart valve replacement by means of mechanical or commercial biological prostheses), but literary and authors own experience in that particular group of patients looks encouraging. Aortic allografts permanent supply in our country is secured.
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PMID:[Aortic allograft (homograft) for the treatment of valvular disorders in adults with focus on treatment of infective aortic valve endocarditis]. 1747 16

Aortic valve replacement (AVR) is recommended as a standard surgical procedure for aortic valve disease. Still the evidence for commonly claimed predictors of post-AVR prognosis, in particular mortality, appears scant. This systematic review reports on the evidence for predictors of post-AVR mortality, and may be helpful in pre-surgical risk-stratification. In PubMed, we searched for original reports of post-AVR follow-up studies. We assessed the quality of study design and methods with a standardized checklist. Data of the reported predictors of mortality and outcomes were extracted. Twenty-eight studies met our inclusion criteria. Sixteen studies were considered of high quality. There is strong evidence that the risk of early mortality is increased by emergency surgery, while the risk of late mortality is increased with older age and preoperative atrial fibrillation. There is moderate evidence that the risk of early mortality is increased by older age, aortic insufficiency, coronary artery disease, longer cardiopulmonary bypass time, reduced left ventricular ejection fraction (LV-EF), infective endocarditis, hypertension, mechanical valves, preoperative pacing, dialysis-dependent renal failure and valve size; and that the risk for late mortality is increased by emergency surgery and urgency of the operation. There is little evidence for high New York Heart Association class, concomitant coronary artery bypass graft and many other commonly claimed risk factors for post-AVR mortality. The reported evidence on predictors of post-AVR mortality will help for pre-surgical risk-stratification, i.e. to discern patients at high or low risk for early and late post-AVR mortality. Future prognostic studies should take the evidence from this review into account and should focus on derivation of a predictive model for post-AVR survival.
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PMID:Predictors of mortality after aortic valve replacement. 1765 66

Infectious endocarditis is a cardiac pathology of bacterial, viral or more rarely mycotic origin developing on the surfaces of the endocardium or heart valves. Predisposing conditions are congenital malformations of the heart or valvular acquired alterations, as well as the presence of a valvular prosthesis. The microorganisms involved in the etiology and pathogenesis of the damage of such infection (bacterias, viruses or yeasts) determine the formation of the endocardic vegetations typical of this condition. Such lesions can be located on the valvular or the parietal endocardium and sometimes on the endothelium of a great artery. In despite of the elevated standards of instrumental investigations and therapeutic protocols, the bacterial endocarditis represents a pathology of wide interest, scientific and social, due to its high rate of incidence, morbility and mortality. Still now infectious endocarditis causes death in 20-30% of the patients. Although the significant progress on prevention of the infectious diseases and of the cross infections in dentistry practice, from the tartar ablation up to the oncologic oral surgery, still now the skills of oral hygiene and dentistry represent a potential threat for the development of an infectious endocarditis in predisposed patients. The authors, on the base of the revision of the literature and of their own clinical experience, show the etiology, pathophysiology and the clinical pictures related to such complex disease.
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PMID:[Dentistry oral hygiene and endocarditis. Pathophysiology and prophylactic therapy]. 1904 Jan 31

On account of their unique anatomy, physiology, natural history, ecology, and behavior, rattlesnakes make ideal subjects for a variety of different scientific disciplines. The prairie rattlesnake (Crotalus viridis) in Colorado was selected for investigation of its relationship to colonies of black-tailed prairie dogs (Cynomys ludovicianus) with regard to spatial ecology. A total of 31 snakes were anesthetized and had radiotransmitters surgically implanted. In addition, at the time of their capture, all snakes underwent the following: (1) they had bacterial culture taken from their mouths for potential isolation of pathogenic bacteria; (2) similarly, they had cloacal bacterial cultures taken to assess potentially harmful bacteria passed in the feces; and (3) they had blood samples drawn to investigate the presence of any zoonotic agents in the serum of the snakes. The results of the study and their implications are discussed here. Traditionally, a low incidence of bacterial wound infection has been reported following snakebite. Nevertheless, the oral cavity of snakes has long been known to house a wide variety of bacterial flora. In our study, 10 different bacterial species were isolated from the mouths of the rattlesnakes, 6 of which are capable of being zoonotic pathogens and inducing human disease. More studies are necessary to see why more rattlesnake bites do not become infected despite the presence of such pathogenic bacteria. The results of fecal bacteria isolated revealed 13 bacterial species, 12 of which can cause disease in humans. Of the snakes whose samples were cultured, 26% were positive for the presence of the pathogen Salmonella arizonae, one of the causative agents of reptile-related salmonellosis in humans. It has long been reported that captive reptiles have a much higher incidence than wild, free-ranging species. This study shows the incidence of Salmonella in a wild, free-ranging population of rattlesnakes. In addition, Stenotrophomonas maltophilia was isolated. This bacterium is associated with wound and soft tissue infections that can lead to sepsis, endocarditis, meningitis, and peritonitis. In addition, this bacterium has been increasingly implicated as an opportunistic pathogen to humans during pregnancies, hospitalizations, malignancies and chemotherapy, chronic respiratory diseases, and presurgical endotracheal intubation. Furthermore, S. maltophilia has an intense resistance to broad-spectrum antibiotics, the results of our study showed the bacterium was resistant to multiple antibiotics. Our results indicate that anyone working with snake feces, dead skin, or their carcasses must follow reasonable hygiene protocols. Rattlesnakes tested for West Nile antibodies had positive results but these were invalidated owing to possible cross-reactivity with other unknown viruses, interference with snake serum proteins, and the fact that the test was not calibrated for rattlesnake serum. Still, the interesting implication remains, should we be regularly testing these animals as sentinels against potentially zoonotic diseases. The results of this study clearly show the value of veterinarians in a multidisciplinary study of this sort and the particular skill set they can offer. Veterinarians must get involved in conservation studies if the biodiversity of the planet is to be preserved.
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PMID:Additional observations and notes on the natural history of the prairie rattlesnake (Crotalus viridis) in Colorado. 2433 57

Previously, endocarditis caused by Pseudomonas aeruginosa mostly involved right-sided valvular infection and generally carried a good prognosis. Recently, changes have been observed in the occurrence and clinical presentation of pseudomonal endocarditis, with increasing incidence of nosocomial infections and involvement of the aortic and mitral valves. Still, pseudomonal left-sided endocarditis is rare, but is frequently associated with complications and high mortality rates. A case of a high-risk patient with coronary artery disease and left-ventricular dysfunction, successfully treated for pseudomonal mitral valve endocarditis complicated by splenic abscess formation, is presented here.
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PMID:Mitral valve endocarditis caused by Pseudomonas aeruginosa: a case report. 2482 Apr 75

A coronary artery fistula is a link between one or more coronary arteries with another heart cavity or a segment of systemic or pulmonary circulation. Arterial blood from a coronary vessel enters another segment via myocardial capillary bed. These are very rare anomalies which constitute approximately 0.2 - 0.4% of all congenital heart defects. Still, they are clinically significant if they are of medium or large size and are manifested with a series of clinical symptoms such as angina pectoris, arrhythmias, myocardial infarction, endocarditis, progressive dilatation, heart failure and cardiomyopathy, pulmonary hypertension, thrombosis of the fistula and formation of aneurysms with possible ruptures. We present six patients with a coronary arterial fistula, their history, diagnostic procedures and outcomes. Therapeutic closure of coronary artery fistulas is recommended in all symptomatic, but also in asymptomatic patients, if there are significant roentgenographic, electrocardiographic and other abnormalities. In recent times transcatheter closure of coronary fistulas has become a possible alternative to surgery and is becoming increasingly used thanks to improved diagnostic possibilities and technology. If possible, interventional closure of fistulas is precisely the method preferred in pediatric patients. The choice of method depends on the anatomy of the fistula, presence or absence of additional defects, and on the experience of an interventional cardiologist or a heart surgeon. If performed well, the effects of both methods are good. This paper presents two children with a fistula between the right coronary artery and the right ventricle (RV), one child with a fistula between LAD and RV, one child with a fistula between the main tree of the left coronary artery (LCA) and RV, one child with a fistula between LCA and the right ventricular outflow tract (RVOT), and one child with a fistula between LCA and the right atrium (RA). The last one (LCA-RA) is not described in the latest classification of anomalies of coronary blood vessels in children based on MSCT coronarography, so we consider our presentation to be a contribution to the new classification. Along with the descriptions of fistulas and presentations of interventional and cardiosurgical interventions, we are also presenting a rare case of spontaneous closing of the fistula within the first six months and of a reopening of the fistula between the right coronary artery and the right ventricle after six years.
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PMID:[Congenital coronary artery fistulas: clinical and therapeutic consideration]. 2563 71

Ventriculoatrial shunt (VA) is one of the oldest solutions for hydrocephalus. However over subsequent years various complication of VA shunt such as obstructions, malposition, shunt infections, cardiac complications such as endocarditis, traumatic perforation, heart failure, tricuspid regurgitation, intraatrial thrombus, and pulmonary hypertension are reported. Hence, VA shunt procedure has fallen into disrepute. Still VA shunt may be a good option in selected patients with hostile peritoneum. Newer placement strategies and monitoring methods have been put forward to reduce complication following VA shunt. In this case report, we share a rare case of endocarditis with tricuspid regurgitation following a migrated retained calcified shunt tube in the right ventricle of heart 30 years after of VA shunt that was successfully managed.
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PMID:Rare sequelae following ventriculoatrial shunt: Case report and review of literature. 2705 31

Fever of unknown origin (FUO) is a frequently observed phenomenon in clinical practice. The present study was aimed to investigate potential causes of FUO, thereby improving clinical diagnosis of this disorder.In this retrospective study, clinical data were collected from 215 patients who were diagnosed with FUO between January 2009 and December 2010, and an 18 to 36 months follow-up visit was also performed for these patients.Among these FUO cases, the most common causes of the disease were infectious diseases (IDs) (42.3%), followed by connective tissue diseases (CTDs) (32.1%), miscellaneous (Mi) (10.7%) and neoplasm (N) (6.5%), while the causes for the other 18 cases (8.4%) were still unknown. The most common types of ID, CTD, and N were tuberculosis (16/91, 17.6%), adult onset Still disease (AOSD) (37/69, 53.6%) and non-Hodgkin lymphoma (6/14, 42.9%), respectively.IDs still represent the most common causes of FUO. Regularly intermittent fever with urinary infections and irregularly intermittent fever with infective endocarditis may be regarded as some signs in clinical diagnosis of FUO.
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PMID:Clinical analysis of 215 consecutive cases with fever of unknown origin: A cohort study. 2990 88

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