Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: UMLS:C0014118 (
endocarditis
)
15,629
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dextran
-producing streptococci such as Streptococcus sanguis are the organisms most frequently associated with infective
endocarditis
in humans. A series of experiments was designed to study how the molecular weight of dextrans affects the adherence of an
endocarditis
strain of S. sanguis to canine heart valves covered with platelets and fibrin. The data indicated that this adherence was dependent on dextrans of high molecular weight, such as dextran T-2000 or glucans isolated from S. sanguis or S. mutans. The adherence properties of the strain studied were not modified by prior exposure of the bacterial cells of valve leaflets to high-molecular-weight dextrans. Preexposure of bacterial cells or valve leaflets to low-molecular-weight dextrans decreased their adherence. Low-molecular-weight dextrans interfered with adherence of dextran-positive strains to damaged heart valves.
...
PMID:Effects of molecular weight of dextran on the adherence of Streptococcus sanguis to damaged heart valves. 615 9
The role of granulocytes in the induction of
endocarditis
with a dextran-producing Streptococcus sanguis and a dextran-negative mutant of this strain was studied. The number of colony-forming units of Streptococcus sanguis needed to colonize the vegetations in 50% of the rabbits (ID50) was significantly lower for the parent strain than for the dextran-negative mutant. However, in granulocytopenic rabbits the ID50s of both strains did not differ measurably.
Dextran
-negative streptococci were more readily cleared from the circulation than dextran-positive, but in this respect no difference was found between control and granulocytopenic rabbits, which indicates that clearance cannot account for the difference in ID50 between the two strains in the control group. At serum concentrations of 5% and lower, in-vitro granulocytes phagocytosed the dextran-negative streptococci more rapidly than the dextran-positive. The intracellular killing of the streptococci was no influenced by dextran production. This study suggests that an impaired phagocytic removal of attached bacteria from the vegetational surface can be a factor promoting the induction of
endocarditis
by dextran-producing streptococci.
...
PMID:Role of granulocytes in the induction of an experimental endocarditis with a dextran-producing Streptococcus sanguis and its dextran-negative mutant. 620 Nov 85
Bacterial adherence as a result of specific surface properties may be a contributory factor in the pathogenesis of bacterial endocarditis giving certain types of bacteria a selective advantage to cause this disease. Adherence could interact with other pathogenetic mechanisms, and this interaction could promote or hamper the development of
endocarditis
.
Dextran
production by streptococci, the activation of the clotting system by monocyte tissue thromboplastin, and phagocytic removal of bacteria from the vegetational surface by granulocytes and monocytes are examples of interacting mechanisms that could contribute to the pathogenesis of bacterial endocarditis.
...
PMID:The role of bacterial adherence in the pathogenesis of infective endocarditis. 710 16
OBJECTIVE: Infective endocarditis is frequently caused by oral streptococci, especially Streptococcus sanguis. In this group, many strains have recently been reclassified on the basis of new taxonomic schemes. The purpose of this study was to classify oral streptococci from patients with infective
endocarditis
and, further, to assess the importance of specific virulence factors for the development of streptococcal
endocarditis
. METHODS: Twenty-eight previously identified and 10 new streptococcal isolates from infective
endocarditis
were classified according to Kilian et al (1989) and compared to 30 streptococcal isolates from the oral cavities of periodontal patients without
endocarditis
. Subsequently, surface hydrophobicity was assessed by hydrophobic interaction chromatography, production of extracellular dextran was determined by precipitation, and non-specific proteolytic activity was evaluated by determination of hydrolysis of gelatin, and casein-precipitating activity. RESULTS: Eight streptococcal species were represented in the
endocarditis
isolates. Most strains were highly hydrophobic and none showed non-specific proteolytic activity.
Dextran
was produced with similar frequency in
endocarditis
and non-
endocarditis
isolates. CONCLUSIONS: The present study showed that infective
endocarditis
may be caused by a variety of oral streptococcal species. The possible virulence factors investigated were found in the same proportions in
endocarditis
and non-
endocarditis
isolates, and thus did not seem to be crucial for development of
endocarditis
.
...
PMID:Current status of taxonomic groups of oral streptococci in endocarditis. Can virulence factors discriminate between endocarditis and non-endocarditis strains? 1185 21
