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: UNIPROT:Q96DG6 (Pseudomonas)
76,258 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied on the antibacterial activity of gentamicin against various pathogens isolated from clinical materials mainly isolated during 1974 and 1975, comparing with other antibiotics. Beta hemolytic streptococci, pneumococci and enterococci are less susceptible to gentamicin than staphylococci. Staph, aureus and Staph. epidermidis resistant to various antibiotics are very susceptible to gentamicin, and no resistant strain to this drug was found. Haemophilus influenzae, H. parainfluenzae and H. parahaemolyticus are very susceptible to gentamicin, and there is no resistant strain to this drug. Escherichia coli, Klebsiella, Citrobacter, Serratia and five species of Proteus are more susceptible to gentamicin and tobramycin than dibekacin and amikacin. A few resistant or less susceptible strains to gentamicin are found in E. coli, Citrobacerr, Serratia, Pr. morganii and Pr. rettgeri. Pr. inconstans is less susceptible to gentamicin than other species of Proteus. Antibacterial activity of gentamicin against Pseudomonas aeruginosa is very strong, but dibekacin and tobramycin are stronger. Gentamicin-resistant strains of Pseudomonas aeruginosa are now rather few.
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PMID:[Gentamicin-susceptibility of various pathogens isolated from clinical materials]. 0 19

Tympanocentesis was performed on 70 infants who had otitis media during the first six weeks of life. The bacteria isolated from their middle-ear effusions were Streptococcus pneumoniae (13 patients), Neisseria catarrhalis (11 patients), Hemophilus influenzae (ten patients), Enterobacteriaceae (four patients), Staphylococcus aureus (four patients), streptococci (groups A and B) (three patients), and Pseudomonas aeruginosa (two patients). Thirty patients (42.9%) had middle-ear effusions which did not contain pathogenic bacteria. Twenty-seven infants were followed for at least 12 months and 12 (44.4%) of these infants had six or more episodes of otitis media during the observation period. Further studies will be needed to establish the significance of middle-ear disease at this age and the role of therapy in improving its outcome.
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PMID:Bacterial etiology of otitis media during the first six weeks of life. 2 35

Eighty-one adults with symptoms of acute sinusitis were studied by direct needle puncture and aspiration of the maxillary sinus (105 sinuses). Fifty-nine bacterial strains were isolated in titers of greater than or equal to 10(4) colony-forming units/ml; Streptococcus pneumoniae and Haemophilus influenzae accounted for 64% of the isolates. Other bacteria recovered included anaerobes (12%), Neisseria species (8.5%). Streptococcus pyogenes (3%), alpha-hemolytic Streptococcus (3%), non-group A beta-hemolytic Streptococcus (3%), Staphylococcus aureus (2%), Pseudomonas aeruginosa (2%), and Escherichia coli (2%). Viruses were isolated from 11 sinuses; these isolates included rhinovirus (six), influenza A (H3N2) virus (three), and two types of parainfluenza virus (one each). The efficacy of therapy with orally administered ampicillin, amoxicillin, or trimethoprim-sulfamethoxazole was evaluated by a repeat sinus puncture and culture. Clinical and bacteriologic responses to all three regimens were good.
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PMID:Etiology and antimicrobial therapy of acute maxillary sinusitis. 3 71

Cefuroxime is a new semisynthetic cephalosporin for parenteral administration. It is resistant to destruction by beta-lactamases produced by staphylococci and most Gram-negative aerobic bacteria and is active against many bacteria resistant to cephalothin. Cefuroxime is the most active of the cephalosporins against gonococci and Haemophilus influenzae particularly against beta-lactamase producing strains. Given by intramuscular or intravenous injection cefuroxime is effective against a wide variety of infections caused by Gram-positive or Gram-negative aerobes, but has no effect against infections caused by Pseudomonas aeruginosa or B. fragilis. Cefuroxime is of value in the treatment of respiratory infections due to Haemophilus influenzae and Streptocococcus pneumoniae and is useful against cephalosporin-resistant Klebsiella and Enterobacter infections. Cefuroxime is an alternative to spectinomycin for the treatment of beta-lactamase producing Neisseria gonorrhoeae infections. It is generally well tolerated and appears not to be nephrotoxic when given alone at usual dosages.
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PMID:Cefuroxime: a review of its antibacterial activity, pharmacological properties and therapeutic use. 3 64

The activities of azlocillin and mezlocillin were compared with those of carbenicillin, ticarcillin, and pirbenicillin against a wide range of gram-negative organisms. The two new drugs were considerably more active than carbenicillin against Klebsiella species and Escherichia coli. Carbenicillin was twice as active against Proteus mirabilis as mezlocillin and four times as active as azlocillin. Against Pseudomonas aeruginosa, azlocillin was eight times as active as carbenicillin. Azlocillin and mezlocillin were twice as active as carbenicillin against Bacteroides fragilis, and these drugs showed a high degree of activity against Haemophilus influenzae and Neisseria gonorrhoeae.
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PMID:Activity of azlocillin and mezlocillin against gram-negative organisms: comparison with other penicillins. 9 26

The in vitro activities of the newer semisynthetic penicillins azlocillin, mezlocillin, and piperacillin were compared with those of ampicillin and ticarcillin by using 290 clinical laboratory isolates. Piperacillin and mezlocillin were the most active against Escherichia coli, Proteus mirabilis, Klebsiella spp., and Enterobacter spp. When Pseudomonas aeruginosa was tested, piperacillin and azlocillin were more active than either mezlocillin or ticarcillin. Streptococcus pneumoniae and Haemophilus influenzae species were highly susceptible to all of the penicillins tested. Ticarcillin had relatively poor activity against enterococci. The rate of bacterial killing with multiples of the minimal inhibitory concentration of azlocillin, ampicillin, or ticarcillin was tested for E. coli, P. mirabilis, P. aeruginosa, and Klebsiella spp. Increasing concentrations increased the bactericidal effect. The effect of combining azlocillin, ampicillin, or ticarcillin with an aminoglycoside was studied by using both killing curves and checkerboards. The isobolograms constructed from the checkerboards showed a synergistic pattern for the organisms tested, which included E. coli, P. aeruginosa, Klebsiella spp., P. mirabilis, and enterococci. However, the rate of killing was increased by the combination only for P. aeruginosa and enterococci.
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PMID:Comparative in vitro activity of azlocillin, ampicillin, mezlocillin, piperacillin, and ticarcillin, alone and in combination with an aminoglycoside. 11 16

In respiratory tract infections in children a distinction must be made between frequently recurring infections and genuine chronic infections due to specific anatomical factors, immunological defects or congenital diseases such as mucoviscidosis. The most frequent pathogens are Haemophilus influenzae, pneumococci, Staphylococcus aureus, Streptococcus pyogenes, enterococci, Pseudomonas aeruginosa and Klebsiella, S. aureus predominates in infants. The same applies for mucoviscidosis, in which P. aeruginosa is the second most frequent pathogen, occurring frequently after a primary infection with staphylococci. In order to avoid frequent relapses in mucoviscidosis patients, uninterrupted long-term treatment with an antibiotic which is effective against staphylococci is recommended, commencing the moment the diagnosis has been established. Suitable antibiotics are co-trimoxazole or oral cephalosporins (e. g. cephalexin, cephradine or cefaclor). Other respiratory tract infections should be treated according to the antibiogramme with a suitable antibiotic once the diagnosis has been confirmed.
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PMID:[Therapy of chronic respiratory tract infections in children, including mucoviscidosis (author's transl)]. 12 31

The in vitro activity of piperacillin (T-1220), a new semisynthetic derivative of aminobenzylpenicillin, was investigated. The majority of streptococci and pneumococci were inhibited by 0.12 micrograms/ml; the staphylococci and enterococci were inhibited by 2 micrograms/ml. Piperacillin was slightly more active against Neisseria and Haemophilus influenzae than was ampicillin. Piperacillin was active against all members of the Enterobacteriaceae including the Klebsiella, 58% of which were inhibited by 8 micrograms/ml. The activity of piperacillin was at least equivalent, but generally superior, to that of ampicillin or carbenicillin on species susceptible to these drugs. Most striking was its activity on Pseudomonas aeruginosa: 50% were inhibited by 2 micrograms/ml, and 83% were inhibited by 4 micrograms/ml. The minimum bactericidal concentrations were very close to the minimum inhibitory concentrations, and in most species only a slight inoculum effect was observed on the minimum bacterial values except for certain P. aeruginosa strains. A complete parallel resistance exists between piperacillin and ampicillin or carbenicillin. However, the clinical importance of this is largely mitigated by the intrinsically higher activity of piperacillin.
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PMID:In vitro activity of piperacillin, a new semisynthetic penicillin with an unusually broad spectrum of activity. 12 18

The in vitro activity of piperacillin, a new semisynthetic piperazine penicillin derivative, was evaluated against 626 clinical isolates and compared with the activity of other beta-lactam antibiotics. At a concentration of 0.1 microgram/ml, piperacillin inhibited all streptococci except enterococci. Non-beta-lactamase-producing staphylococci were inhibited by 1.6 microgram or less per ml. Both beta-lactamase- and non-beta-lactamase-producing Haemophilus were inhibited by 0.1 microgram/ml. Piperacillin inhibited non-beta-lactamase-producing Escherichia coli, Salmonella, and Shigella at a concentration of 6.3 micrograms/ml, but 20% of strains of these species containing type III beta-lactamase were not inhibited by 100 micrograms/ml. Piperacillin at 25 micrograms/ml, inhibited 83% of Citrobacter, 58% of Klebsiella, 88% of Enterobacter, and 50% of indole-positive Proteus, Acinetobacter, and Providencia. At 25 micrograms/ml, piperacillin inhibited 95% of Pseudomonas aeruginosa and 78% of Bacteroides fragilis. The minimal inhibitory concentration of piperacillin against Pseudomonas was affected by increasing the inoculum size and by pH. Minimum bactericidal concentrations against Pseudomonas and Serratia often were eightfold greater than the minimum inhibitory concentrations. Piperacillin was equal in activity to ampicillin against enterococci. It was more active than carbenicillin against E. coli, Klebsiella, Enterobacter, and Bacteroides. It was the most active penicillin against Pseudomonas and inhibited many strains of Pseudomonas for which the MICs of carbenicillin were above 200 micrograms/ml. Piperacillin was hydrolyzed by many different beta-lactamases. Synergistic activity of piperacillin was demonstrated when it was combined with amikacin, gentamicin, and cefazolin against P. aeruginosa and members of the Enterobacteriaceae. No antagonism was observed when piperacillin was combined with aminoglycosides; however, antagonism was observed rarely against E. coli when piperacillin was combined with cefazolin.
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PMID:Piperacillin, a new penicillin active against many bacteria resistant to other penicillins. 12 19

HR 756, a new parenteral cephalosporin, was compared with cefazolin and carbenicillin for activity against a total of 264 strains of Pseudomonas aeruginosa, Escherichia coli, Klebsiella spp., Proteus mirabilis, Proteus spp. (indole positive), Enterobacter spp., Salmonella typhi, Serratia marcescens, Providencia stuartii, and Staphylococcus aureus. In every comparison, except that with the last organism, HR 756 was clearly more active than cefazolin and carbenicillin. All three compounds had similar activity against penicillin-susceptible staphylococci; against penicillin-resistant strains, HR 756 and cefazolin were equally active and superior to carbenicillin. HR 756 was compared with penicillin for activity against strains of Streptococcus pyogenes, Lancefield group D streptococci, and Neisseria gonorrhoeae; with ampicillin against Haemophilus influenzae; and with cefoxitin against Bacteriodes fragilis. HR 756 was clearly more active than the respective reference compounds in all of these comparisons, except those involving the streptococci. HR 756 and penicillin were essentially equally active against S. pyogenes; against Lancefield group D, penicillin was 32 times as active as HR 756. HR 756 not only compared favorably with the reference compounds with respect to relative activity, but also effected growth inhibition of essentially all test organisms (P. aeruginosa and group D streptococci excepted) at remarkably low concentrations ranging from 0.015 to 2.0 mug/ml. A series of seven transfers of selected strains of E. coli, Klebsiella spp., S. aureus, and P. aeruginosa through medium containing HR 756 led to emergence of strains with significant levels of resistance to the agent. Resistance to HR 756 was retained for at least seven transfers through plain medium.
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PMID:HR 756, a highly active cephalosporin: comparison with cefazolin and carbenicillin. 25 72


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