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:C0348321 (Haemophilus)
15,372 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Emergence of resistance to antimicrobial agents among previously susceptible organisms continues to be an important obstacle to the successful treatment of bacterial infections. In hospitals, plasmid-mediated resistance to third-generation cephalosporins and monobactams has recently appeared in gram-negative bacilli, due primarily to mutations in TEM- and SHV-type enzymes. Among nosocomial enterococci, vancomycin resistance, beta-lactamase production, and high-level resistance to all aminoglycosides have recently been added to this organism's already formidable armamentarium of resistance properties. Also, resistance to fluoroquinolones and rifampin has been emerging in methicillin-resistant Staphylococcus aureus. In the community, organisms in which resistance plays a particularly important role are shigellae, Haemophilus influenzae, gonococci, and pneumococci, particularly in developing countries. beta-lactamase-producing meningococci have been reported for the first time. The selective pressure generated by the use of antimicrobial agents, together with the ability of bacteria to acquire and spread resistance and the capacity of humans to transmit bacteria, suggest that antimicrobial resistance will continue to be a problem for the foreseeable future.
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PMID:New aspects of antimicrobial resistance and the resulting therapeutic dilemmas. 203 83

The antibacterial activity of cefpodoxime proxetil was studied in an in-vitro model simulating doses of 100, 200 and 400 mg. Strains of Klebsiella spp. Proteus mirabilis, Escherichia coli, Streptococcus pyogenes, and Haemophilus influenzae were effectively reduced by a dose of 200 mg. While for Esch. coli no dose-activity relationship was observed--the maximal effect was achieved with a simulated dose of 100 mg--Staphylococcus aureus could be reduced effectively only by a simulated dose of 400 mg. The lower doses showed stepwise lower activities. Apart from broad spectrum beta-lactamases like SHV 2 or TEM 5 the presence of plasmid coded beta-lactamases in Esch. coli and H. influenzae did not affect the antibacterial activity of cefpodoxime proxetil. The results show that cefpodoxime was more active against Gram-negative bacteria than amoxycillin, and comparable activity to intramuscular cefotiam in the in-vitro model.
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PMID:Antibacterial activity of cefpodoxime proxetil in a pharmacokinetic in-vitro model. 221 49

The activity of the new oral cephalosporin Bay v 3522 was compared to that of six other beta-lactam agents. Bay v 3522 inhibited methicillin-susceptible Staphylococcus aureus and Staphylococcus epidermidis at less than or equal to 2 micrograms/ml, compared to MICs of greater than or equal to 8 micrograms/ml for the other cephalosporins tested. It was more active against Streptococcus pyogenes (MIC less than or equal to 0.06 microgram/ml) than cefuroxime, cefixime, cephalexin and cefaclor. Groups B, C and G streptococci were inhibited at less than or equal to 0.12 microgram/ml, while the MI"90 for Streptococcus bovis and viridans streptococci was 0.5 and 2 micrograms/ml, respectively. The MIC90 for enterococci and Listeria monocytogenes was 8 micrograms/ml. Clostridium perfringens was inhibited by 0.12 microgram/ml, but most Bacteroides spp. were resistant. The MIC90 for beta-lactamase positive Escherichia coli (producing primarily TEM-1) was greater than 64 micrograms/ml and for beta-lactamase negative strains 16 micrograms/ml. The MIC90 for high-level beta-lactamase producing Klebsiella pneumoniae was greater than 64 micrograms/ml versus 4 micrograms/ml for other isolates. The MIC90 for Moraxella catarrhalis was 2 micrograms/ml, for Haemophilus influenzae 1 micrograms/ml, and for Neisseria gonorrhoeae 4 micrograms/ml. Enterobacter cloacae, Citrobacter freundii, Proteus mirabilis, Providencia spp. and Pseudomonas aeruginosa were resistant. Bay v 3522 was destroyed by TEM-1, SHV-1, TEM-3 and P99 beta-lactamases.
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PMID:In vitro activity and beta-lactamase stability of the new oral cephalosporin Bay v 3522. 222 99

The antibacterial activity of cefpodoxime, a new orally active methoxy-imino cephalosporin was evaluated in 470 recent isolates of gram-positive cocci and gram-negative rods from clinical specimens and compared to that of other orally active beta-lactam compounds. Cefpodoxime was highly active against ampicillin-resistant enterobacteria producing the plasmid-mediated TEM-1, TEM-2 or OXA-1 enzymes, as was the case for the other newer compounds. However, it was poorly active against cefuroxime-resistant (MIC greater than or equal to 16 mg/l) E. coli isolates, thus resembling cefetamet and cefixime. It was inactive against isolates exhibiting a production of large amounts of class I beta-lactamase, as was the case with all other compounds studied. Cefpodoxime was highly active against beta-hemolytic streptococci and against Haemophilus influenzae, resembling the related agents. Moreover, its activity against Staphylococcus aureus was comparable to that of cefotaxime and exceeded that of cefetamet and cefixime. Cefpodoxime and the other methoxyimino cephalosporins exhibited a poor affinity to the plasmid-mediated TEM-2 and OXA-1 enzymes. The hydrolysis of cefpodoxime by class I beta-lactamases was barely detectable, whereas it served as a moderate substrate for the enzyme from Klebsiella oxytoca 3951. Cefpodoxime, cefetamet and cefixime were slowly inactivated by the enzyme from Proteus vulgaris 4917 (an enzyme with cefuroximase activity) and much poorer substrates than cefotaxime.
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PMID:Cefpodoxime: comparable evaluation with other orally available cephalosporins. With a note on the role of beta-lactamases. 224 85

The in-vitro activity of cefpodoxime was studied in 529 clinical isolates and compared with the activity of other oral beta-lactams. Amongst the Enterobacteriaceae cefpodoxime was very active (MIC90 less than or equal to 1 mg/l--other than genera commonly possessing chromosomal beta-lactamases). Against these strains cefpodoxime was comparable in activity to cefixime and about eight-fold more active than cefuroxime and 8-16-fold more active than cefaclor and cephalexin. Staphylococcus aureus strains were moderately susceptible (MIC90 4 mg/l) to cefpodoxime in comparison with cefixime (16 mg/l). The respiratory pathogens, Haemophilus influenzae, Streptococcus pneumoniae and Branhamella catarrhalis were susceptible to less than or equal to 0.5 mg/l cefpodoxime. An increase in inoculum from 10(4) to 10(6) cfu had little effect upon activity. Studies in beta-lactamase hydrolysis of cefpodoxime showed it to be stable to TEM-1, SHV-1 and BRO-1 enzymes but with high affinity for the P99 enzyme. The primary target of cefpodoxime is PBP3 (I50 1 mg/l) in Escherichia coli K12. The protein binding of the agent to human serum was 14.3-18.3% at 1 and 5 mg/l respectively.
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PMID:The in-vitro activity of cefpodoxime: a comparison with other oral cephalosporins. 235 24

The in vitro activity of Bay v 3522, a new aminobenzothiazol cephem, was compared with those of other oral beta-lactams. Bay v 3522 displayed high activity against Staphylococcus spp. (MICs for 90% of strains tested [MIC90S], 0.5 micrograms/ml), Streptococcus pneumoniae (MIC90, 0.06 micrograms/ml), and Haemophilus influenzae and Branhamella catarrhalis (MIC90S, 2 micrograms/ml). There was limited activity against members of the family Enterobacteriaceae, with the MIC90S being between 4 and greater than 128 micrograms/ml. The stability of Bay v 3522 to hydrolysis by the SHV-1 and TEM-1 enzymes was intermediate to those of cephalexin (least hydrolyzed) and cefaclor, but it was markedly more stable than amoxicillin. There was high affinity to the chromosomally mediated P99 enzyme. The protein binding of Bay v 3522 was 45%. The primary target of Bay v 3522 was penicillin-binding protein 3.
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PMID:In vitro activity of Bay v 3522, a new cephalosporin, compared with activities of other agents. 236 Aug 20

The combination of piperacillin and the beta-lactamase inhibitor tazobactam (formerly YTR 830) was studied to determine optimal disk concentrations and dilution testing conditions. In addition, the potency of the combination was compared to that of piperacillin alone. The spectrum of piperacillin was greatly expanded by the addition to tazobactam principally against beta-lactamase producing strains of Haemophilus influenzae, Escherichia coli, Morganella morganii, Proteus vulgaris, Providencia stuartii, Shigella spp., Neisseria gonorrhoeae, and Staphylococcus spp. Tazobactam was active alone against Branhamella catarrhalis (minimum inhibitory concentration [MIC] 50, less than or equal to 1 microgram/ml), gonococci (MIC 50, 0.5-4 micrograms/ml), and N. meningitidis (MIC 50, less than or equal to 1 microgram/ml). Studies with beta-lactamase-producing type strains showed tazobactam to have high affinity for plasmid-mediated enzymes (TEM-1 and 2, SHV-1, HMS-1, and some CARB or OXA types) and not chromosomal beta-lactamases. Piperacillin/tazobactam inhibited 93% of fluoro-quinolone resistant strains at less than or equal to 64/8 micrograms/ml but failed to suppress the growth of 15 strains producing stably depressed cephalosporinases. Comparisons of piperacillin/tazobactam results determined with 100/10-, 100/20-, and 100/30-micrograms disks established the 100/10-micrograms disk as most usable. Among five different MIC combinations the ratio of eight parts piperacillin to one part tazobactam or fixed concentration tests at greater than or equal to 4 micrograms tazobactam/ml were preferred, each producing very low occurrences (less than or equal to 1.6%) of false-resistance or -susceptibility when compared to disk test results. MICs determined by agar and broth microdilution methods were essentially the same. The recommended breakpoints for piperacillin/tazobactam MICs were identical to those now found in the NCCLS susceptibility testing standards with the following exceptions: (1) for tests with H. influenzae and Staphylococcus spp.--susceptible at greater than or equal to 21 mm (MIC less than or equal to 16/2 micrograms/ml) and resistant less than or equal to 20 mm (MIC less or equal to 32/4 micrograms/ml); and (2) all remaining nonspeudomonas isolates would be interpreted by the NCCLS piperacillin enteric bacilli susceptibility criteria. This newer beta-lactamase inhibitor combination appears to be worthy of further in vivo trials guided by these or similar tentative in vitro susceptibility testing parameters.
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PMID:Studies to optimize the in vitro testing of piperacillin combined with tazobactam (YTR 830). 256 Apr 22

FK482 is an oral aminothiazolyl hydroxyimino cephalosporin with a C-3 vinyl group. Its activity was compared with those of cephalexin, cefuroxime, cefixime, and amoxicillin-clavulanate. FK482 inhibited 90% of Staphylococcus aureus isolates at 1 micrograms/ml and 90% of Streptococcus pyogenes, Streptococcus agalactiae, and Streptococcus pneumoniae isolates at less than or equal to 0.012 micrograms/ml, superior to cephalexin and cefuroxime and similar to cefixime. It did not inhibit oxacillin-resistant S. aureus. FK482 inhibited 90% of Enterococcus faecalis isolates at 8 micrograms/ml. Although 90% of Escherichia coli, Klebsiella pneumoniae, Proteus mirabilis, Salmonella species, and Shigella species isolates were inhibited by less than or equal to 2 micrograms/ml, FK482 was less active than cefixime against Citrobacter, Enterobacter, Morganella, Serratia, and Providencia species, with MICs for many isolates of greater than 8 micrograms/ml. FK482 inhibited Haemophilus influenzae and Neisseria gonorrhoeae at concentrations comparable to that of cefixime and superior to those of cephalexin and cfaclor. Bacteroides and Pseudomonas species were resistant. FK482 was not hydrolyzed by the TEM-1 and TEM-2 beta-lactamases but was hydrolyzed by TEM-3 and the Proteus vulgaris enzyme. It had a high affinity for chromosomal beta-lactamases.
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PMID:Comparative in vitro activity and beta-lactamase stability of FK482, a new oral cephalosporin. 258 45

SM-7338, a new carbapenem, inhibited most members of the family Enterobacteriaceae at MICs of 0.015 to 0.25 microgram/ml, including Klebsiella oxytoca, Citrobacter freundii, Enterobacter cloacae, and Proteus vulgaris isolates resistant to cefotaxime, ceftazidime, piperacillin, and gentamicin. It was two- to eightfold more active than imipenem, but it inhibited Pseudomonas aeruginosa at 1 to 8 micrograms/ml, which was comparable to the activity of imipenem. Haemophilus, Neisseria, and Branhamella species were inhibited by less than or equal to 0.25 microgram/ml, which was superior to the activity of imipenem. SM-7338 inhibited Staphylococcus aureus and coagulase-negative staphylococci at 0.25 microgram/ml, but for methicillin-resistant isolates MICs were 4 to 16 micrograms/ml. Group A, B, and C streptococci and Streptococcus pneumoniae were inhibited by less than or equal to 0.03 microgram/ml. Bacteroides species, including clindamycin-resistant isolates, were inhibited by 0.25 microgram/ml. There was no major inoculum size effect, and the MBCs were within a dilution of the MICs. SM-7338 was more active than imipenem at an acid pH under anaerobic conditions. Plasmid beta-lactamases of TEM-1, TEM-2, TEM-3, TEM-5, SHV-1, SHV-2, PSE-1, PSE-2, PSE-3, OXA-2, OXA-3, OXA-4, OXA-5, and OXA-7; Staphylococcus aureus enzymes; and the chromosomal beta-lactamases P-99 and K-1; Morganella species; and Proteus vulgaris did not hydrolyze SM-7338. The repeated transfer of organisms increased the MICs of SM-7338, as it did the MICs of imipenem.
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PMID:In vitro activity and beta-lactamase stability of a new carbapenem, SM-7338. 278 93

Altogether 403 Haemophilus spp. were isolated in seven hospital laboratories in Hong Kong during June 1986, mostly from sputum. Of these 73% were Haemophilus influenzae and 27% Haemophilus parainfluenzae. All the isolates of H. influenzae were non-capsulated; Haemophilus spp. were not isolated from blood or cerebrospinal fluid (CSF) during the period of the study. Antimicrobial resistance, including multiple resistance, was common. Of all the strains of H. influenzae, 20% were resistant to 1 mg/l ampicillin, (all except one by production of TEM-1 beta-lactamase), 65% were resistant to 0.5 mg/l erythromycin, 25% to 1 mg/l tetracycline, 14% to 1 mg/l chloramphenicol (mediated by the production of a chloramphenicol-destroying enzyme) and less than 1% to 8 mg/l cefaclor and 0.5 mg/l trimethoprim. All isolates were susceptible to cephamandole and cefuroxime. Haemophilus parainfluenzae showed similar susceptibilities, except that a greater proportion of strains was sensitive to erythromycin and chloramphenicol. Only 50% of the ampicillin-resistant strains of H. influenzae and H. parainfluenzae contained detectable plasmids of 2-55 Mdal arranged in six to nine different plasmid profiles. Resistance to ampicillin and chloramphenicol has increased markedly in isolates of H. influenzae in Hong Kong over the last 5 years. This resistance may be associated with transposable genes.
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PMID:Antimicrobial susceptibilities of Haemophilus species in Hong Kong. 280 36


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