[Study on MIC breakpoint and method of antimicrobial chemotherapy for moderately complicated urinary tract infection--study using an automatic simulator of urinary antimicrobial agent concentrations].

We experimentally investigated an efficient administrating method of antimicribials prior to the clinical treatment of complicated urinary tract infection without catheter. An experimental model of moderately complicated urinary tract infection, which can simulate changes in the urinary concentration of antimicrobials by means of previously reported computer control method, was used for the experiment. The following results were obtained.

[An experimental examination of the significance of the peak antimicrobial concentration value in urine and time above MIC on the effect of antimicrobial agents--an examination using a severely complicated in vitro bladder model with an autosimulation system for antimicrobial concentration in urine].

Using a severely complicated in vitro bladder model with a computer-controlled autosimulation system for antimicrobial concentration in urine, we examined the significance of the peak concentration value and time above MIC, and obtained the following results. 1. Regarding the initial bactericidal speed, the higher the peak concentration value was, the more quickly the bacterial concentration decreased.

[Therapeutic study on biofilm of the urinary tract using a severely complicated bladder model (biofilm model of the urinary tract)--experimental study using an automatic simulator of urinary antimicrobial agent concentration, and clinical study].

For the purpose of conducting a therapeutic study on biofilm of the urinary tract, we devised a computer-controlled severely complicated bladder model (biofilm model of the urinary tract) enabling us to simulate the time-course of the concentration of antimicrobial agents in the urine. Using this model, we investigated clarithromycin (CAM), which has been reported to have anti-biofilm action, at concentrations close to its urinary levels at the time of clinical use in order to predict its effect on biofilm of the urinary tract. On the basis of those experimental results, we also conducted a clinical examination.

Activity of the carbapenem panipenem and role of the OprD (D2) protein in its diffusion through the Pseudomonas aeruginosa outer membrane.

Evidence of permeation of panipenem through the OprD (D2) channel of Pseudomonas aeruginosa outer membrane was shown by using OprD protein-producing and -nonproducing strains which contained plasmid pHN4, which codes for L-1 beta-lactamase of Xanthomonas maltophilia. Permeation by panipenem was determined by measuring hydrolysis of the carbapenem by beta-lactamase in the periplasmic space. Permeation by panipenem was also determined by counting uptake of [14C]panipenem into P.

Cross-resistance to meropenem, cephems, and quinolones in Pseudomonas aeruginosa.

Multiple-drug-resistant mutants were isolated from Pseudomonas aeruginosa PAO1 on agar plates containing ofloxacin and cefsulodin. These mutants were four to eight times more resistant to meropenem, cephems, carbenicillin, quinolones, tetracycline, and chloramphenicol than the parent strain was. In contrast, these mutants showed no significant changes in their susceptibilities to all carbapenems except meropenem.

[A clinical study on postantibiotic effect (PAE) and its application to chemotherapy for complicated cystitis with an automatic simulator of urinary drug concentration].

In an in vitro complicated cystitis model, the concentrations of the urinary antimicrobial agents were determined using a computer-controlled automatic urine concentration simulator. The effects on the bacterial count curves showing the presence or absence of PAE in antimicrobial agents were studied by comparing the times required for regrowth to the concentration at the initial inoculation, i.e.

[Significance of the combined treatment with isepamicin and piperacillin in an in vitro model for complicated cystitis operated by automatic simulator apparatus for urinary concentration].

Isepamicin (ISP) and piperacillin (PIPC) were shifted to the urinary concentration by employing an in vitro complicated cystitis model operated by a computer-controlled automatic simulator for urinary concentration, and administrated to bacteria in the urinary bladder model (Pseudomonas aeruginosa: P. aeruginosa, initial cell concentration: 10(7) cfu/ml). In this case, effects by single treatment with ISP or PIPC on cell number curves were examined.

beta-Lactamase produced by a highly beta-lactam-resistant strain of Bacteroides fragilis: an obstacle to the chemotherapy of experimental mixed infections.

A strain of Bacteroides fragilis, which produces a metallo-beta-lactamase, was inoculated into pouches on the backs of rats together with a beta-lactamase-negative Escherichia coli highly sensitive to beta-lactam antibiotics. The mixed infection rat pouch model was treated with either flomoxef (susceptible to hydrolysis by the beta-lactamase produced by B. fragilis), or cefmetazole (relatively resistant to hydrolysis).

Increase in susceptibility of Pseudomonas aeruginosa to carbapenem antibiotics in low-amino-acid media.

The in vitro susceptibility of Pseudomonas aeruginosa PAO1 to carbapenem antibiotics, such as CS-533, was influenced by various concentrations of basic amino acids, i.e., L-lysine, L-histidine, and L-arginine, in agar media.

[An in vitro study on the treatment of complicated cystitis using an automatic simulator].

A computer simulation of a Kidney-bladder model was prepared for automatic control of the urine concentration of antibacterial drug administrated. The following results were obtained in an investigation of the problems of complicated cystitis in vitro using ofloxacin. 1) It was suggested that the time required for elimination of the bacteria was prolonged as the level of complication of the disease state in the urinary tract increased.

Antibacterial activity of cefmetazole alone and in combination with fosfomycin against methicillin- and cephem-resistant Staphylococcus aureus.

In vitro and in vivo antibacterial activities of cefmetazole alone and in combination with fosfomycin against methicillin- and cephem-resistant (MR) strains of Staphylococcus aureus were investigated, and the mechanism of synergistic effect between cefmetazole and fosfomycin was also studied. Cefmetazole inhibited the growth of 71 strains of MR S. aureus at concentrations ranging from 1.

Release of lipoteichoic acid from Staphylococcus aureus by treatment with cefmetazole and other beta-lactam antibiotics.

The effect of cefmetazole on the growth together with the release of cellular lipoteichoic acid from cefazolin-resistant strains of Staphylococcus aureus was compared with that of cefazolin, cefotiam, cefoxitin and cefuroxime. Bacteriolytic actions were measured by turbidity and bactericidal actions were followed by viable cell count. Release of cellular lipoteichoic acid was measured by the radioactivity in the supernatant of the cultures.

Effect of 7 alpha substitution of cephems on their beta-lactamase stability and affinity for penicillin-binding proteins in Morganella morganii.

Cephamycins, which have a methoxy group at the 7 alpha position of their cephalosporin nuclei, were highly stable against hydrolysis by a beta-lactamase purified from a clinical isolate of Morganella morganii, whereas their 7 alpha-H analogs were rapidly hydrolyzed by the enzyme. The high stability of the cephamycins was not due to their low affinity for the enzyme, since the cephamycins strongly inhibited the enzyme in a competitive manner. In cases in which the 7 alpha-methoxy group was substituted by OC2H5, SCH3, CN, or CH3 groups, the substituted compounds still showed high stability against enzymatic hydrolysis but significantly reduced both their affinities for the enzyme and their antibacterial activities.

Potent cephalosporinase inhibitors: 7 beta-[2-(1, 3-dithiolan-2-ylidene) acetamido] cephalosporins and related compounds.

Cephalosporins possessing a 1, 3-dithiolane, 1, 3-dithiane, or 1, 3-dithietane ring on their 7 beta-substituents showed potent inhibitory activity against cephaloridine hydrolysis by cephalosporinases purified from proteus morganii, Proteus rettgeri, and Proteus inconstans, which were not inhibited by clavulanic acid, a well-known beta-lactamase inhibitor. The mode of inhibition was competitive. The dithiolane cephalosporins themselves were stable against hydrolysis by the beta-lactamases tested.

Penem derivatives: beta-lactamase stability and affinity for penicillin-binding proteins in Escherichia coli.

Penem derivatives, a new group of beta-lactam antibiotics with potent activities against a wide range of bacteria, including Pseudomonas aeruginosa, were tested for their stability against hydrolysis by beta-lactamases purified from clinical isolates of Morganella morganii. Proteus vulgaris, and Escherichia coli and by a penicillinase from Bacillus cereus. Penems having 6 alpha substituents, such as hydroxyethyl, hydroxymethyl, and ethyl groups, were very stable against hydrolysis by each of the enzymes.