UMLS:C0348321 - FACTA Search

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)

Amoxicillin, a beta-lactam antibiotic, was tested for its effect in combination with clavulanic acid, a beta-lactamase inhibitor, against 9 species of bacteria isolated from clinical specimens. A total of 698 strains of bacteria were tested for beta-lactamase production by the rapid chromogenic cephalosporin method. Their susceptibilities to amoxicillin alone and in combination with clavulanic acid were tested by the agar dilution method. The percentage of beta-lactamase producing strains ranged from 46.6% in Proteus mirabilis to 100% in Klebsiella pneumoniac. In general, beta-lactamase nonproducers were more susceptible to amoxicillin than beta-lactamase producers. For beta-lactamase producers, clavulanic acid decreased the MICs of amoxicillin prominently in strains of Neisseria gonorrhoeae, Haemophilus influenzae, Escherichia coli, K. pneumoniae, P. mirabilis, Enterobacter cloacae and Bacteroides fragilis, when combining clavulanic acid with amoxicillin in the ratio of 1:2. Their MIC50s, MIC90s and geometric means of MICs all decreased 4 folds or greater. For beta-lactamase non-producing strains, the MICs did not show significant differences by adding clavulanic acid in most species we tested, including methicillin-sensitive Staphylococcus aureus, N. gonorrhoeae, H. influenzae, Proteus vulgaris and E. cloacae.
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PMID:Antibacterial activities of amoxicillin alone and in combination with clavulanic acid correlated with beta-lactamase production. 181 98

Ro 09-1428, a new parenteral cephalosporin with a catechol moiety attached at position 7 of the cephalosporin ring, showed high in vitro activity against Escherichia coli, Klebsiella pneumoniae, Proteus mirabilis, Proteus vulgaris, and Streptococcus pyogenes, with MICs for 90% of strains tested (MIC90s) of less than or equal to 0.39 micrograms/ml. Morganella morganii, Providencia rettgeri, Citrobacter freundii, Haemophilus influenzae, Staphylococcus aureus, and Streptococcus pneumoniae were inhibited with MIC90s of less than or equal to 3.13 micrograms/ml. Serratia marcescens was less susceptible to Ro 09-1428, with a MIC90 of 25 micrograms/ml. The most distinctive feature of Ro 09-1428 was its potent activity against Pseudomonas aeruginosa and Acinetobacter calcoaceticus, with MIC90s of 0.39 and 6.25 micrograms/ml, respectively. Most of the ceftazidime-resistant strains of P. aeruginosa, E. cloacae, and C. freundii were inhibited by Ro 09-1428, while those of S. marcescens were resistant at a concentration of 12.5 micrograms/ml. Ro 09-1428 was more active than ceftazidime against staphylococci. PBP 3 was the most sensitive target in E. coli and P. aeruginosa. The response to ferric iron in growth medium suggests that Ro 09-1428 may be taken up by transport mechanisms similar to those of other catechol cephalosporins. In accordance with its in vitro activity, Ro 09-1428 activity was equal to or greater than ceftazidime activity in efficacy against experimental septicemias in mice. The results indicate that Ro 09-1428 is a broad-spectrum cephalosporin with advantages over ceftazidime in its activity against P. aeruginosa, staphylococci, and ceftazidime-resistant strains of C. freundii and E. cloacae.
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PMID:In vitro and in vivo evaluation of Ro 09-1428, a new parenteral cephalosporin with high antipseudomonal activity. 190 61

Minimal inhibitory concentration (MIC) of ceftibuten (CBT) were evaluated by agar dilution for 1,416 bacterial strains isolated in 5 hospitals. For Enterobacteriaceae, MIC 50 and 90% were respectively (micrograms/ml): (I) Naturally non beta-lactamase producing species: E. coli 0.12-0.5, Shigella 0.06-0.12 and Salmonella 0.03-0.12, P. mirabilis 0.16-0.03. (II) Chromosomal penicillinase producing species: K. pneumoniae 0.03-0.5 and K. oxytoca 0.03-0.06. (III) Chromosomal cephalosporin producing species: E. cloacae and C. freundii 1- greater than 128: S. marcescens 0.25-2; indole + Proteus 0.06-0.12. Activity of CBT was not modified on plasmid mediated penicillinase producing strains; however, CBT was inactive on cephalosporinase hyperproducing strains, and its activity was variably reduced on broad spectrum beta-lactamases producing strains. CBT was inactive on P. aeruginosa (MIC greater than or equal to 32) and on A. baumannii (8- greater than 128). Haemophilus and Gonococci, regardless on beta-lactamase production status, were very susceptible to CBT (MIC 50 and 90%: 0.06-0.5 and 0.016-0.06); it is the same situation for Meningococci; B. catarrhalis was generally inhibited by 0.03 to 2 (strains susceptible to penicillin G) and 0.12 to 16 (strains resistant to penicillin G). CBT was inactive on Staphylococci. Enterococci and Streptococci B were generally resistant; Streptococci A, C, G were inhibited by low concentrations: 0.06 to 1 (MIC 50 and 90%: 0.25-0.5), whereas MIC for other Streptococci 0.12 to 128 (MIC 50 and 90%: 8-128) and for Pneumococci were 0.25 to 16 (4-8). These antibacterial properties particularly against Enterobacteriaceae placed CBT in excellent position among oral cephalosporins.
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PMID:[In vitro antibacterial activity of a new oral cephalosporin, ceftibuten. Results of a multicenter study]. 190 17

The in vitro activity of cefpodoxime, an oral cephalosporin ester, against 792 bacterial isolates representing 36 species was evaluated in comparison to that of ciprofloxacin and trimethoprim/sulfamethoxazole (TMP/SMX). Cefpodoxime inhibited the majority of Streptococcus spp., Haemophilus influenzae and Proteus mirabilis at a concentration of less than or equal to 0.12 microgram/ml. It was also active against Citrobacter diversus, Escherichia coli, Klebsiella spp., Proteus vulgaris, Serratia marcescens and methicillin-susceptible Staphylococcus aureus isolates. Overall, cefpodoxime appeared to be less active than ciprofloxacin and TMP/SMX against many pathogens common in cancer patients.
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PMID:In vitro activity of cefpodoxime against bacterial isolates obtained from patients with cancer. 191 1

In the subjects of 835 strains of 37 clinically isolated microbial strains, which were separated and identified among materials collected from patients with various infections and which were sent from medical therapeutic institutions throughout Japan in 1990, for the purpose of examining the antimicrobial activity of cefpiramide (CPM), its minimum inhibitory concentration (MIC), together with those of other cephem antibiotics, was determined, and the following conclusions were obtained. 1. Microbial strains in which no CPM-resistant strains emerged were Streptococcus pyogenes, Streptococcus pneumoniae and Anaerobic Gram-positive cocci. 2. In comparison with reports by many researchers at the former half of the 1980s, microbial stains suggesting an increase in resistance to CPM were Staphylococcus aureus, Proteus vulgaris, Pseudomonas aeruginosa, Pseudomonas cepacia, Pseudomonas putida, Acinetobacter calcoaceticus, and Haemophilus influenzae, but also in other microbial strains the resistance to CPM was observed in high ratios. 3. Among strains used in the test, methicillin-resistant S. aureus, cephamycin and oxime type cephalosporin-resistant Gram-negative bacilli of Enterobacteriaceae, and new quinolone-resistant microbes were observed in high ratios; therefore, it was considered that CPM could not exert sufficient antimicrobial activities to these strains because of many resistant strains being complicated among these "CPM-resistant strains". 4. It was discussed that "the resistance mechanism observed throughout beta-lactam drugs as a while and the study themes in the dimension including social circumstances where resistant strains emerged", as pointed out by the authors in 1989, increased the significance of these days in the evaluation of timecourse changes in microbes resistant to specific drugs including CPM. 5. There are many unfavorable conditions in the antimicrobial activities of CPM to clinically isolated strains in recent years. However, it was jointly confirmed that CPM maintained effective antimicrobial activities to the majority of clinically isolated strains. Furthermore, when it was additionally considered that CPM was one of not many cephem drugs having persistent blood levels, a conclusion was drawn that CPM was one of clincally useful cephem drugs even at present.
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PMID:[Antimicrobial activity of cefpiramide to fresh clinical isolates]. 192 Aug 8

The penicillin family of antibiotics remains an important part of our antimicrobial armamentarium. In general, these agents have bactericidal activity, excellent distribution throughout the body, low toxicity, and efficacy against infections caused by susceptible bacteria. The initial introduction of aqueous penicillin G for treatment of streptococcal and staphylococcal infections was an important pharmacologic landmark. The emergence of penicillinase-producing Staphylococcus aureus prompted the development of the penicillinase-resistant penicillins (for example, methicillin, oxacillin, and nafcillin), in which an acyl side chain prevented disruption of the beta-lactam [corrected] ring. Subsequently, the aminopenicillins (such as ampicillin and amoxicillin) were developed because of the need for gram-negative antimicrobial activity. Their spectrum included Escherichia coli, Proteus mirabilis, Shigella Salmonella, Listeria, Haemophilus, and Neisseria. The search for a penicillin with additional antimicrobial activity against the Enterobacteriaceae and Pseudomonas aeruginosa led to the development of the carboxypenicillins (carbenicillin, ticarcillin, and temocillin) and the ureidopenicillins (mezlocillin, azlocillin, piperacillin, and apalcillin). Finally, the combination of a beta-lactamase inhibitor (clavulanic acid or sulbactam) and an aminopenicillin or ticarcillin has further extended their antibacterial spectra. The development of an ideal penicillin that is rapidly bactericidal, nonsensitizing, nontoxic, bioavailable, resistant to beta-lactamase, and without inoculum effect and that has a high affinity for penicillin-binding proteins remains the goal.
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PMID:The penicillins. 192 89

Beta-lactamase inhibitors are compounds which are able to bind many beta-lactamase and to inactivate them irreversibly ("suicide inactivators"). Their intrinsic antimicrobial activity is weak. However, in combination with aminopenicillins they exhibit marked synergism both in vitro and in vivo against many beta-lactamase producing bacterial strains. At the achievable serum and tissue concentrations after oral administration, various aminopenicillin/beta-lactamase inhibitor combinations are active against many strains of beta-lactamase producing Haemophilus influenzae, Moraxella catarrhalis, Bacteroides fragilis and staphylococci. At levels achievable in the urine, they are also active against many strains of Escherichia coli, Proteus spp. and Klebsiella spp. Clinically, they have been shown to be effective in the treatment of various human infections of the urinary tract, airways, skin, soft tissues, ear and sinuses. Mild gastrointestinal disturbances are the most commonly encountered side effects. Aminopenicillin/beta-lactamase inhibitor combinations may be a suitable therapeutic option in treating mild to moderately severe infections, i.e. in an outpatient setting.
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PMID:[Beta-lactam/beta-lactamase inhibitor combinations for oral administration]. 192 70

Results of sensitivity testing were discussed based on examination of 5192 isolates of the various bacteria isolated from clinical specimens from King Khalid University Hospital in Riyadh, Saudi Arabia. Streptococcus pyogenes and Streptococcus pneumoniae were sensitive to penicillin and erythromycin. The sensitivity pattern of Staphylococcus aureus was also predictable as they were fairly sensitive to both methicillin (98%) and erythromycin (96%). Neisseria gonorrhoeae (27%) showed a high level of resistance to penicillin. The resistance of Haemophilus influenzae to ampicillin and chloramphenicol was low. Brucella species was sensitive to tetracycline and rifampicin; resistance to streptomycin and cotrimoxazole was minimal being 1% and 6% respectively. The resistance of E. coli, Klebsiella species and Proteus species to second and third generation cephalosporins and amikacin was fairly low ranging from 1.3% to 3%. The gentamicin resistance for these organisms was also within the acceptable range (3%-10%). Gentamicin and amikacin resistance for Pseudomonas aeruginosa was low (2-8%). Salmonella typhi was sensitive to ampicillin, cotrimoxazole, and chloramphenicol. Salmonella enteritidis, Shigella species, and enteropathogenic E. coli were highly resistant to various antibiotics. Campylobacter jejuni was sensitive to gentamicin but 6% of isolates were resistant to erythromycin. Ninety six percent of Gram-negative rods except P. aeruginosa isolated from urine of patients having urinary tract infections were sensitive to amoxycillin-clavulanic acid. In addition, P. aeruginosa showed fairly low resistance to norfloxacin which is given orally to treat cystitis caused by this organism.
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PMID:Antibiotic sensitivity pattern; experience at University Hospital, Riyadh, Saudi Arabia. 196 Mar 92

In order to survey antibacterial activities of ofloxacin (OFLX) against 1,440 bacterial strains isolated from patients with community-acquired infections in 1987 and 1990, minimum inhibitory concentrations (MICs) of the drug as well as those of other new quinolones and oral cephems were determined. The following conclusions were reached. 1. Comparison of the MIC distribution for strains isolated in 1987 with those in 1990 suggested a tendency toward an increase in the frequency of OFLX-resistant isolates with the passage of time of Staphylococcus aureus, Enterococcus faecalis, Escherichia coli, Citrobacter spp., Klebsiella ssp., Enterobacter spp., Proteus vulgaris, Morganella morganii, Providencia spp., and Acinetobacter calcoaceticus. Most common elevations of MIC values against these bacteria were observed in MIC80 and MIC90 values, while no significant alteration was observed in MIC50 values. However, MIC50's of OFLX against Serratia marcescens and Pseudomonas aeruginosa were relatively high for strains isolated in both 1987 and 1990. Most of the OFLX-resistant strains of S. aureus seemed to be methicillin-resistant (MRSA). Furthermore, MIC80 of OFLX against coagulase-negative staphylococci was high in strains isolated in both 1987 and 1990. 2. Susceptibility of Streptococcus spp. was evaluated only in strains isolated in 1990. The results were comparable to those reported by others in the early 1980s. 3. Bacteria which showed no or infrequent emergence of OFLX-resistant strains even in 1990 were Proteus mirabilis, Haemophilus influenzae, Neisseria gonorrhoeae, Campylobacter spp. and Peptostreptococcus spp. 4. Recently isolated strains from patients with community-acquired infections showed a tendency toward an increase of the frequency of OFLX-resistant strains among many bacteria. However, the bacteria which contained high percentages of OFLX-resistant strains except for MRSA were so-called less-virulent bacteria, and in the other bacteria elevations of MIC values were only observed in MIC80 and MIC90. These results suggested that OFLX preserved a potent antibacterial activity against bacteria which were major causative pathogens in community-acquired infections.
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PMID:[Antibacterial activities of ofloxacin against recent isolates from patients with community-acquired infections]. 196 Aug 56

Intravenous ciprofloxacin and ceftazidime were compared for efficacy in the treatment of nosocomial pneumonia and urinary tract infection (UTI). Patients with nosocomial pneumonia were randomized to receive ciprofloxacin (as the lactate salt) 300 mg i.v. every 12 hours or ceftazidime (with sodium carbonate) 2 g i.v. every eight hours. Patients with UTI were randomized to receive ciprofloxacin 200 mg i.v. every 12 hours or ceftazidime 1 g i.v. every eight hours. Sputum and urine specimens were collected before, during, and after therapy. For patients with pneumonia, the organisms most frequently isolated before treatment began were Escherichia coli, Haemophilus influenzae, Klebsiella pneumoniae, and Proteus mirabilis. Of the 17 pneumonia patients who completed ciprofloxacin treatment, 15 (88%) had resolution of signs and symptoms or improvement. Of the 15 ceftazidime-treated pneumonia patients, 13 (87%) had resolution or improvement. Staphylococcus aureus, Streptococcus species, Acinetobacter species, and K. pneumoniae infections persisted for the ciprofloxacin treatment failures. Infections by Enterobacter cloacae and Acinetobacter species persisted for the ceftazidime treatment failures. For UTI patients, E. coli was the organism most frequently isolated before treatment. All 14 UTI patients who completed treatment showed resolution or improvement. In the ciprofloxacin group two patients were superinfected by Enterococcus species, and in the ceftazidime group there were two superinfections by Enterococcus species and one by Enterobacter cloacae. Intravenous ciprofloxacin was as effective as ceftazidime in the treatment of nosocomial pneumonia and urinary tract infection. Caution should be exercised when treating serious infections by streptococci or staphylococci.
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PMID:Intravenous ciprofloxacin versus ceftazidime for treatment of nosocomial pneumonia and urinary tract infection. 199 86

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