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

The amikacin sensitivity of bacteria cultured from 3282 clinical cases of mixed type was determined. Gentamicin and amikacin were equally effective against E. coli strains. Amikacin inhibited the growth of more Pseudomonas aeruginosa strains than did gentamicin. Against Gram-positive bacteria gentamicin proved to be more effective. Many of the gentamicin-resistant strains were sensitive to amikacin. Amikacin levels were measured during 21 pulmonary and 14 heart operations, subsequent to a intramuscular administration of 500 mg amikacin. The serum contained 17-20 microgram/ml amikacin, in the intact, inflamed and tumourous parts of removed lung tissue 9, 6 and 6 microgram/g concentrations were detected, respectively, whereas the cardiac auricle and the pericardial fluid contained 3-4 and 2-4 microgram/ml, respectively. These amikacin levels reach or in most cases even exceed the minimal inhibiting concentrations against the bacteria. Therefore, amikacin is excellent for the treatment of respiratory infections, pericarditis and endocarditis caused by Gram-negative, gentamicin-resistant bacteria. Amikacin treatment of 8 patients with grave diseases as well as the successful local administration of amikacin based on the therapy of 55 cases of surgical suppurations is reported.
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PMID:Amikacin: in vitro bacteriological studies, levels in human serum, lung and heart tissue, and clinical results. 51 16

Antibiotic-induced growth inhibition and killing of a non-mucoid strain of Pseudomonas aeruginosa (PA-96) in vitro and ex vivo were studied at oxygen tensions approximating those of the right and left cardiac ventricles in vivo (pO2 = 40 VS. 80 mm Hg). This pseudomonal strain grew equally at the two oxygen tensions, yet only bacteria exposed to pO2 80 mm Hg revealed significant exopolysaccharide production as shown by PAS and ruthenium red staining. Similarly, scanning electron microscopy of pseudomonal cells within aortic (but not tricuspid) vegetations revealed surface excrescenses compatible with surrounding exopolysaccharide (glycocalyx). Amikacin at 10 x MIC caused significantly less in-vitro killing of pseudomonal cells at pO2 80 VS. 40 mm Hg. In vitro and ex vivo (within experimental aortic and tricuspid vegetations), post-antibiotic effect durations were about 50% shorter for cells exposed to amikacin at pO2 80 mm Hg than 40 mm Hg. These data demonstrate suboptimal aminoglycoside-induced growth inhibition and killing, as well as enhanced exopolysaccharide production of a non-mucoid P. aeruginosa strain at oxygen tensions reflective of the left side of the heart. These findings may in part explain the better results seen in aminoglycoside-treated right compared to left-sided pseudomonal endocarditis in man.
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PMID:Oxygen-dependent differences in exopolysaccharide production and aminoglycoside inhibitory-bactericidal interactions with Pseudomonas aeruginosa--implications for endocarditis. 250 Dec 67

The in vivo efficacies of pefloxacin, a new fluoroquinolone, and amikacin-ceftazidime were compared in 50 rabbits with experimental aortic endocarditis caused by Pseudomonas aeruginosa. Animals were randomly chosen to receive 4 or 10 days of no therapy (controls), pefloxacin (40 mg/kg [body weight] per day, intramuscularly [i.m.]), or amikacin (30 or 80 mg/kg per day, i.m.)-ceftazidime (150 mg/kg per day, i.m.). Pefloxacin and both amikacin regimens significantly reduced vegetation bacterial densities compared with controls at days 4 and 10 of treatment (P less than 0.0005). By day 10 of therapy, between 33 and 40% of vegetations from amikacin-ceftazidime recipients contained ceftazidime-resistant bacteria (MICs, greater than 25 micrograms/ml); nitrocefin agar overlay confirmed that these ceftazidime-resistant variants were constitutive overproducers of beta-lactamase. At therapy days 4 and 10, approximately 30% of vegetations sampled from pefloxacin recipients contained bacteria for which pefloxacin MICs were four- to eightfold higher than the MIC for the parental strain used to initially induce endocarditis (MIC, 0.19 microgram/ml). These variants also exhibited increases in ciprofloxacin and ticarcillin MICs, as well as pleotropic resistance to chloramphenicol (but not to amikacin, ceftazidime, or tetracycline). Amikacin-ceftazidime, as well as pefloxacin, was effective in this model of aortic pseudomonal endocarditis. However, in vivo development of ceftazidime resistance and step-ups in pefloxacin MICs among intravegetation isolates were associated with inability to completely eradicate P. aeruginosa from aortic vegetations.
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PMID:Development of beta-lactam resistance and increased quinolone MICs during therapy of experimental Pseudomonas aeruginosa endocarditis. 312 85

The in vivo efficacies of amikacin, ceftazidime, and their combination were evaluated in experimental aortic valve endocarditis due to Pseudomonas aeruginosa. Eighty catheterized rabbits were infected with a P. aeruginosa strain susceptible to both amikacin and ceftazidime and then received no therapy (controls), amikacin (15 mg/kg per day), ceftazidime (100 mg/kg per day), or amikacin-ceftazidime. Amikacin-ceftazidime significantly lowered vegetation titers of P. aeruginosa at day 7 of therapy versus other regimens (P less than 0.0005). However, by day 14 of therapy, vegetation titers in animals receiving amikacin or ceftazidime regimens or both were not different from those of untreated controls; this was associated with in vivo development of amikacin resistance in most infected vegetations (79%), a phenomenon not seen at day 7 of therapy. Amikacin resistance was unstable in vivo, being undetectable in vegetations examined 5 days after treatment with amikacin had been completed. In contrast, ceftazidime resistance (first noted at day 7 of therapy in 12% of vegetations) persisted after termination of treatment with this agent. These in vivo observations on loss of amikacin resistance and persistence of ceftazidime resistance were mirrored during in vitro passage studies of amikacin- or ceftazidime-resistant P. aeruginosa strains isolated from cardiac vegetations. Amikacin resistance was no longer detectable by passage 5 in antibiotic-free media; however, ceftazidime resistance was stable despite 15 such passages. In vivo development of aminoglycoside-beta-lactam resistances was associated with poor bacteriologic efficacy in this model.
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PMID:Efficacy of amikacin and ceftazidime in experimental aortic valve endocarditis due to Pseudomonas aeruginosa. 390 54

We investigated the efficacy of a potent new antipseudomonal beta-lactam agent, ceftazidime, in a model of right-sided Pseudomonas endocarditis in 72 rabbits. Animals received either: no therapy (controls), amikacin (15 mg/kg/day), ceftazidime (100 mg/kg/day) or amikacin + ceftazidime. Amikacin + ceftazidime was significantly more effective than single-drug regimens in terms of reduction of mortality (p less than 0.01), prevention of pulmonary infarction (p less than 0.05), reduction of mean vegetation titers of Pseudomonas aeruginosa (p less than 0.05-p less than 0.0005), sterilization of vegetations (p less than 0.0005) and reduction in prevalence of bacteriologic relapses after therapy (p less than 0.005). There was no development of resistance in vivo to either amikacin or ceftazidime.
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PMID:Amikacin + ceftazidime therapy of experimental right-sided Pseudomonas aeruginosa endocarditis in rabbits. 393 92

The treatment of endocarditis often requires prolonged antibiotic therapy. Individualized drug dosage regimens have made such therapy possible even in patients with impaired renal function. However, the problem of efficacy remains. Especially for aminoglycosides, it would be a useful guide to have at least an approximate idea of the concentration of an antibiotic within an endocardial vegetation. This study was designed to develop software to model the drug concentrations at different layers within spherical vegetations to provide a guide during clinical therapy of patients with endocarditis. A general model describing the diffusion of antibiotics in spheres has now been developed and interfaced with the USC*PACK PC Clinical Programs in order to compute and plot concentrations, within the vegetation, based on the regimen given to the patient and the diffusitivity of the antibiotic into the vegetation. Some preliminary results of this research, which are still in progress, are presented. Diffusion into simulated spherical vegetations has been computed for different treatment regimens for endocarditis: amikacin or netilmicin and vancomycin were given to three elderly patients (3 women, 74, 75 and 92 years old, with initial estimated creatinine clearances of 51, 36, and 31 ml/min/1.73 m2, respectively). Although Amikacin has a low diffusivity, the concentrations, even in the center of the vegetation, appear to be effective. The effects of various regimens, including a 'once-a-day' aminoglycoside regimen, are presented.
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PMID:Computation of drug concentrations in endocardial vegetations in patients during antibiotic therapy. 792 62

Amikacin in small, low-clearance liposomes (MiKasome) has prolonged plasma and tissue residence and in vivo activity against extracellular infections, including Klebsiella pneumonia and Pseudomonas endocarditis. Small liposomes may cross endothelial barriers, and enter the systemic circulation after extravascular administration. We compared the systemic bioavailability (F) of low-clearance liposomal amikacin in rats following intravenous (i.v.), intraperitoneal (i.p.), intramuscular (i.m.) and subcutaneous (s.c.) injection (20 mg/kg) and intratracheal (i.t.) instillation (10 mg/kg). Drug-containing liposomes were extensively absorbed after i.p. (F = 87-146%) and i.t. (F = 64%) administration, with maximum amikacin plasma concentrations of 171 micrograms/ml at 9 h and 80 micrograms/ml at 18 h, respectively. Absorption was slower and less extensive following s.c. (plasma Tmax: 20.3 micrograms/ml at 48 h) and i.m. (plasma Tmax: 49.6 micrograms/ml at 19 h) injection, but a significant fraction (12-27%) of the liposomes was absorbed. The plasma AUCs of liposomal amikacin exceeded the AUC of conventional i.v. amikacin by at least 25-fold for all routes. Amikacin AUCs in regional lymph nodes exceeded plasma AUCs by 4-fold after s.c. and i.m. injection of liposomal amikacin. AUCs in tissues surrounding the injection sites were 20- and 191-fold higher than plasma AUCs after i.m. and s.c. injection, respectively. Thus, small low-clearance liposomes produced sustained levels of liposome-encapsulated amikacin in plasma, local tissues and lymph nodes after extravascular administration, suggesting applications in perioperative prophylaxis, pneumonias and intralesional therapy as well as sustained systemic delivery of encapsulated drugs.
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PMID:Bioavailability of a small unilamellar low-clearance liposomal amikacin formulation after extravascular administration. 1093 87

The impact of different types of enzymatic resistance on the in vivo antibacterial activity of aminoglycosides (amikacin, gentamicin, and netilmicin) was studied in the rabbit endocarditis model with four strains of Staphylococcus aureus. Animals were treated in a manner simulating the administration of a single daily human dose. Amikacin had no effect on the three kanamycin-resistant strains despite apparent susceptibility in the disk diffusion test. Gentamicin appears to be the preferable aminoglycoside for treatment of staphylococcal infections.
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PMID:Different aminoglycoside-resistant phenotypes in a rabbit Staphylococcus aureus endocarditis infection model. 1195 9

We report a case of infective endocarditis caused by Acinetobacter baumannii complex in a 27-year-old male patient. The patient presented with fever of five days duration, palpitation, dyspnea, cough and chest pain. He had undergone a surgical repair of ruptured aneurysm of sinus of valsalva a month before. The transthoracic echocardiogram revealed a large vegetation on the aortic valve. Three samples of blood for culture grew gram-negative pleomorphic coccobacilli within 24 hours which were identified by cultural and biochemical characteristics to be Acinetobacter baumannii complex. Antimicrobial susceptibility was performed by Kirby-Bauer method and the isolate were found to be resistant to ampicillin, Ciprofloxacin, Ceftriaxone, Gentamicin, Amikacin, Augmentin, Levofloxacin, Piperacillin-Tazobactam, Netilimicin and sensitive to Imipenem. Patient was initially treated with Ceftraixone and Gentamicin and subsequently with Ampicillin and Amikacin but did not respond to treatment and died of sepsis before therapy with Imipenem could be started.
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PMID:Infective endocarditis due to Acinetobacter baumannii complex--a case report. 1718 61

Nontuberculous mycobacteria rarely cause bacteremia in HIV-negative patients. We describe 16 cases, including the first Mycobacterium neoaurum endocarditis. Nine cases were line related. Most patients were immunocompromised secondary to hematologic malignancy or other comorbid conditions. Amikacin had the most reliable in vitro activity. Combination therapy was frequently used. Mortality was 25%.
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PMID:Nontuberculous mycobacterial blood stream and cardiac infections in patients without HIV infection. 2046 26


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