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

The in vitro activity of amifloxacin, a quinolone antimicrobial agent was compared with those of ciprofloxacin, enoxacin, ofloxacin and norfloxacin against gram-positive and gram-negative bacteria. Ninety percent of Escherichia coli, Klebsiella species, Aeromonas, Salmonella, Shigella, Citrobacter, Enterobacter species, Proteus mirabilis, Serratia marcescens, and Morganella morganii were inhibited by less than or equal to 0.5 microgram/ml. Amifloxacin inhibited Branhamella, Haemophilus, and Neisseria at less than or equal to 0.25 microgram/ml, and 90% of Pseudomonas aeruginosa, including gentamicin- and carbenicillin-resistant isolates, at 4 micrograms/ml. It also inhibited staphylococci, including methicillin-resistant isolates, but was less active against streptococci and Bacteroides species. Amifloxacin had in vitro activity similar to enoxacin, ofloxacin, and norfloxacin, but was less active than ciprofloxacin. Like other quinolones, it was less active at acid pH and in the presence of urine.
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PMID:Antibacterial activity of amifloxacin (WIN 49, 375), a new quinolone agent. 406 9

The activity of cefotaxime was compared with that of ampicillin, moxalactam, and cefoperozone against 50 isolates of Haemophilus influenzae and with that of ampicillin, carbenicillin, cephalothin, cefoxitin, cefamandole, cefazolin, and several other established and investigational beta-lactam antibiotics against several hundred isolates of gram-negative aerobic enteric bacilli. Minimal inhibitory concentrations of the drugs were determined by the agar plate dilution technique for H. influenzae and by the microtiter broth dilution technique for the other pathogens. Cefotaxime was the most active agent against H. influenzae; it was 20 times more active than ampicillin. It was also the most active agent against Escherichia coli, Klebsiella pneumoniae, nontyphoid Salmonella species, and Yersinia enterocolitica. Cefotaxime was among the most active agents against Enterobacter cloacae, Citrobacter species, Shigella species, Proteus mirabilis, and Acinetobacter calcoaceticus. None of the new cephalosporins or penicillin inhibited greater than 90% of the isolates of Pseudomonas aeruginosa at concentrations of less than or equal to 16 micrograms/ml; these drugs were, however, more active than carbenicillin.
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PMID:Comparative activity of cefotaxime and selected beta-lactam antibiotics against Haemophilus influenzae and aerobic gram-negative bacilli. 629 90

The in vitro activity of cefmenoxime (SCE 1365), a new cephalosporin derivate was compared with two other "third generation" cephalosporins: cefotaxime and moxalactam. Cefmenoxime as cefotaxime and moxalactam were very active against 305 cephalosporinase-producing and cephalosporinase-non-producing Enterobacteriaceae. Cefmenoxime was the most active against Serratia marcescens, Citrobacter freundii, Morganella morganii, Salmonella, Shigella and Yersinia enterocolitica with a mean MIC at least twice lower. Several strains of the species Hafnia alvei, Providencia stuartii and Proteus vulgaris were more resistant. Against Haemophilus influenzae, the activity of the three cephalosporins was higher with a mean MIC between 0,030 and 0,040 microgram/ml. Against carbenicillin-sensible or carpenicillin-resistant Pseudomonas aeruginosa or Acinetobacter calcoaceticus, the three cephalosporins were not performant. Against Staphylococcus aureus, cefmenoxime and cefotaxime had an identical activity with a mean MIC of 1,5 microgram/ml against methicillin-sensible strains and a mean MIC of 5,5 micrograms/ml against methicillin-resistant strains.
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PMID:[In vitro bacteriostatic activity of cefmenoxime (SCE 1365), cefotaxime and moxalactam]. 631 95

beta-Lactamases have proved to be extremely important in influencing therapy with penicillins and cephalosporins against gram-positive and gram-negative aerobic and anaerobic species. Both plasmid mediated beta-lactamases which are primarily of a constitutive penicillinase type and the inducible chromosomal enzymes which are primarily cephalosporinases are important. The use of penicillins to treat Haemophilus, Neisseria gonorrhoeae, Escherichia coli, Klebsiella, Salmonella, Shigella and Pseudomonas infections must be based upon the relative incidence of beta-lactamase producing strains. In the same manner cephalosporins can be used to treat infections due to Enterobacter, Serratia and Bacteroides only if the compounds are beta-lactamase stable and not good inducers of beta-lactamase activity. Although altered permeability is important in the resistance of some Pseudomonas and Enterobacter to beta-lactams, the resistance really is due to a combination of reduced entry of molecules and strategically placed beta-lactamases. It is only in some Streptococcus pneumoniae, methicillin-resistant Staphylococcus aureus and Streptococcus faecalis strains that altered penicillin-binding proteins make a significant contribution to the resistance to beta-lactams. beta-lactamases will continue to be the most important factor in clinically significant resistance of bacteria to both penicillins and cephalosporins.
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PMID:What do beta-lactamases mean for clinical efficacy? 642 46

Ceforanide is a new cephalosporin with a longer elimination half-life than any currently available cephalosporin. Its activity is very similar to that of cefamandole, a second-generation cephalosporin, except that ceforanide is less active against most gram-positive organisms. Many coliforms, including Escherichia coli, Klebsiella, Enterobacter, and Proteus, are susceptible to ceforanide, as are most strains of Salmonella, Shigella, Hemophilus, Citrobacter and Arizona species. However, most strains of Serratia marcescens and all Pseudomonas aeruginosa are resistant to this compound. Peak serum concentrations in excess of 100 micrograms/ml are achieved after a 1 g intravenous dose. The elimination half-life of ceforanide is about 3 hrs in patients with normal renal function; this allows twice daily dosing for the majority of patients. As renal excretion amounts for 85-90% of drug elimination, the serum half-life increases to approximately 20 hours in anuric patients. Tissue penetration studies demonstrate inhibitory concentrations in cardiac tissue, bone, and joint fluid. Minor adverse effects have been reported after large doses of ceforanide. Clinical trials indicate that ceforanide is effective in the treatment of skin and soft tissue, pulmonary and urinary tract infections, bone and joint infections, and endocarditis. Ceforanide also has been shown to be as effective as cephalothin or cephaloridine when given prophylactically for vaginal hysterectomy.
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PMID:Ceforanide: antibacterial activity, pharmacology, and clinical efficacy. 676 29

Temocillin, a 6-alpha-methoxy penicillin, inhibited 90% of strains of Escherichia coli, Klebsiella pneumoniae, Citrobacter, Proteus, Providencia, Salmonella, and Shigella at a concentration of less than or equal to 16 micrograms/ml. Haemophilus influenzae and Neisseria gonorrhoea were inhibited by less than or equal to 1 microgram/ml. Changing the medium or pH of the cultures did not alter the minimal inhibitory concentrations, which were similar in broth and human serum, as were the minimal bactericidal concentrations. An increase in inoculum size from 10(5) to 10(7) colony-forming units increased concentration required for inhibition. Temocillin inhibited strains resistant to ampicillin, ticarcillin, cefazolin, cefamandole, and cefoxitin. Most Pseudomonas aeruginosa strains and other Pseudomonas spp. and Acinetobacter spp. were resistant, as were gram-positive organisms. Temocillin was not hydrolyzed by the common plasmid and chromosomal beta-lactamases but inhibited them. The resistance of certain gram-negative bacilli to temocillin seemed to be a result of failure of the molecule to enter through the cell wall, since combination of temocillin with EDTA made Pseudomonas, Acinetobacter, and Enterobacter strains susceptible to low concentrations of the compound.
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PMID:Antibacterial activity and beta-lactamase stability of temocillin. 698 81

The in vitro activity of GR-20263, a new aminothiazolyl cephalosporin, was compared with the activities of other beta-lactam antibiotics by using 800 clinical bacterial isolates. GR-20263 was highly active (inhibition of 90% of the isolates between 0.03 and 1 microgram/ml) against the common Enterobacteriaceae and 5 to 20 times more active than cefuroxime, cefoxitin, and cephalothin. GR-20263 was three to six times less active than cefotaxime against Escherichia coli, Klebsiella pneumoniae, Salmonella, and Shigella, but three to four times more active than cefotaxime against Proteus vulgaris and Serratia marcescens. The activity of GR-20263 against Pseudomonas aeruginosa (with minimal inhibitory concentrations of 2 and 8 micrograms/ml for 90 and 100% of the isolates, respectively) was similar to that of tobramycin, 2 times that of cefsulodin, 5 times that of piperacillin, and 10 times that of cefotaxime. Against Haemophilus influenzae GR-20263 was three time more active than ampicillin. The beta-lactamase-producing strains were as susceptible to GR-20263 as the beta-lactamase-negative strains. GR-20263 was less active than cefotaxime and ampicillin against Staphylococcus aureus.
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PMID:GR-20263: a new aminothiazolyl cephalosporin with high activity against Pseudomonas and Enterobacteriaceae. 699 40

The in vitro activity of three fluorine analogs of chloramphenicol in which the hydroxyl group at position 3 had been replaced with a fluorine was compared with that of chloramphenicol and thiamphenicol. Compound SCH 24893 was the most active agent against staphylococci and Bacteroides strains, and compound SCH 25298 was the most active against Haemophilus, Neisseria, enterococcus, and Klebsiella strains. Serratia marcescens and Pseudomonas aeruginosa strains resistant to chloramphenicol were resistant to the compounds. The agents inhibited all of the Shigella, Salmonella, Staphylococcus aureus, and enterococcus strains resistant to chloramphenicol. They inhibited most (82%) of Escherichia coli and half of the Klebsiella pneumoniae strains which were resistant to chloramphenicol. Isolates in which resistance to chloramphenicol was shown to be plasmic mediated and due to chloramphenicol transacetylase were inhibited by all three agents.
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PMID:In vitro activity of chloramphenicol and thiamphenicol analogs. 744 8

In addition to Ipa proteins and IcsA, which are involved in entry into epithelial cells and intercellular spread, respectively, Shigella secretes a 110 kDa protein, designated SepA. We report the identification, cloning, and nucleotide sequence determination of the sepA gene, analysis of SepA secretion, and construction and characterization of a sepA mutant. The sepA gene is carried by the virulence plasmid and codes for a 150 kDa precursor. Upon secretion, which does not involve accessory proteins encoded by the virulence plasmid, the precursor is converted to a mature protein of 110 kDa by two cleavages removing an N-terminal signal sequence and a C-terminal fragment. Extensive similarities were detected between the sequence of the first 500 residues of mature SepA and the N-terminal region of IgA1 proteases from Neisseria gonorrhoeae and Haemophilus influenzae, the Tsh haemagglutinin of an avian pathogenic Escherichia coli, and the Hap protein involved in adhesion and penetration of H. influenzae. The C-terminal domain of the SepA precursor, which is not present in the secreted protein, exhibits sequence similarity with pertactin of Bordetella pertussis and the ring-forming protein of Helicobacter mustelae. Construction and phenotypic characterization of a sepA mutant indicated that SepA is required neither for entry into cultured epithelial cells nor for intercellular dissemination. However, in the rabbit ligated ileal loop model, the sepA mutant exhibited an attenuated virulence, which suggests that SepA might play a role in tissue invasion.
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PMID:SepA, the major extracellular protein of Shigella flexneri: autonomous secretion and involvement in tissue invasion. 747 98

Ceftibuten is a new, orally administered cephalosporin with exceptional beta-lactamase stability and potency against commonly isolated Gram-negative pathogens. More than 90% of recent Enterobacteriaceae clinical isolates were inhibited by < or = 8 micrograms/ml of ceftibuten. In only five enteric species (Citrobacter freundii, Enterobacter aerogenes, Enterobacter cloacae, Morganella morganii, Serratia marcescens) were more than 15% of strains resistant (minimal inhibitory concentrations (MIC, with percent of strains inhibited in subscript numbers) > 16 micrograms/ml) to ceftibuten. Enteritis-producing bacteria such as Salmonella, Shigella, Escherichia coli and Yersinia were very ceftibuten-susceptible (MIC50 < or = 0.13 microgram/ml). Fastidious Gram-negative species causing respiratory tract or genital infections had very low ceftibuten MICs, including beta-lactamase-positive Haemophilus influenzae (MIC90 0.06 to 2 micrograms/ml), Moraxella catarrhalis (MIC90 0.25 to 4 micrograms/ml), and Neisseria gonorrhoeae (MIC90 0.015 to 0.5 microgram/ml). Beta-hemolytic streptococci and penicillin-susceptible pneumococci were also inhibited by ceftibuten. Staphylococci, enterococci, Pseudomonas species and Gram-negative anaerobic bacteria were generally resistant to ceftibuten. Ceftibuten has demonstrated bactericidal activity against susceptible pathogens, has high affinity for several lethal penicillin-binding proteins and possesses stability to common plasmid- or chromosomal-mediated beta-lactamases, including those enzymes that hydrolyze parenteral third generation cephalosporins. The microbiologic features for ceftibuten indicate its clinical potential as chemotherapy for community-acquired respiratory tract infections.
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PMID:Ceftibuten: a review of antimicrobial activity, spectrum and other microbiologic features. 756 14


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