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2 2 CHEMOTHERAPY JAN. 1976
3 VOL. 24 NO. 1 CHEMOTHERAPY 3 Table 1 Antibacterial spectra of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin
4 4 CHEMOTHERAPY JAN Fig. 1 In vitro activity of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin against clinically isolated bacterial strains
5 VOL 24 NO. 1 CHEMOTHERAPY 5 Table 2 Effect of inoculum size on antibacterial activity of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin Viable cell counts of inoculum suspension Inoculum size : One loopful of bacterial suspension Medium : Trypticase soy agar
6 6 CHEMOTHERAPY JAN Table 3 Effect of medium ph on antibacterial activity of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin Fig. 2 Patterns of development of resistance of Staph. aureus 209 P to Cephacetrile, Cephalothin, Cephaloridine and Cefazolin Fig. 3 Patterns of development of resistance of E. coli NIHJ JC-1 to Cephacetrile, Cephalothin, Cephaloridine and Cefazolin
7 VOL. 24 NO. 1 CHEMOTHERAPY 7 Table 4 Effect of horse serum concentration in medium on antibacterial activity of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin Table 5 Antibacterial activity of Cephacetrile on several agar medium
8 Table 6 Cross resistance among Cephacetrile, Cephalothin, Cephaloridine and Cefazolin Fig. 4 Bactericidal effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Staph. aureus 209 P
9 Fig. 5 Bactericidal effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on E. coli NIHJ JC-1 Fig. 6 Bacteriolytic effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Staph. aureus 209 P Fig. 7 Bacteriolytic effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on E. coli NIHJ JC-1
10 Table 7 Effect of ph on antibacterial activity of Cephacetrile at 100 Ž Inoculum size : One loopful of bacterial suspension (108/ml) Medium : Trypticase soy agar Table 8 Effect of ph on antibacterial activity of Cephacetrile at 37 Ž Table 9 Effect of ph on antibacterial activity of Cephacetrile at 4 Ž Inoculum size : One loopful of bacterial suspension (108/ml) Medium : Trypticase soy agar
11 Table 10 Protective effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Staph. aureus 308 A-1 infection in CF1/H mice Note Five mice of each group were injected intraperitoneally with 0.5 ml of bacterial suspension in 5 % mucin. Cephalosporin was administered as a single dose immediately after challenge.
12 Table 11 Protective effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Strept. pyogenes E-14 infection in CF1/H mice Note: Five mice of each group were injected intraperitoneally with 0. 5 ml of bacterial suspension in 5 % mucin. Cephalosporin was administered as a single dose immediately after challenge. Table 12 Protective effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Strept. pneumoniae type I infection in CF1/H mice Note : Five mice of each group were injected intraperitoneally with 0. 5 ml of bacterial suspension in TSB. Cephalosporin was administered as twice doses 0 and 4 hours after challenge. Table 13 Protective effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on E. coli infection in CF1/H mice Note : Five mice of each group were injected intraperitoneally with 0.5 ml of 5 % mucin which contained 1/10 volume of suspension of test organism. Cephalosporin was administered as a single dose immediately after challenge.
13 Table 14 Protective effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Klebsiella pneumoniae infection in CF1/H mice Note : Five mice of each group were injected intraperitoneally with 0. 5 ml of bacterial suspension in 5% mucin. Cephalosporin was administered as a single dose inmmediately after challenge. Table 15 Protective effect of Cephacetrile, Cephalothin, Cephaloridine and Cefazolin on Proteus mirabilis IFO 3849 infection in CF1/H mice Note : Five mice of each group were injected intraperitoneally with 0.5 ml of bacterial suspension in 5 % mucin. Cephalosporin was administered as a single dose immediately after challenge.
14 6) BARBEN, M. & P. M. WATERWORTH : Penicillinase-resistant penicillins and cephalosporins. Brit. Med. J. 2: 344 `349, ) MUGGLETON, P. W.; C. H. O'CALLAGHAN & W. K. STEVENS : Laboratory evaluation of a new antibiotic-cephaloridine (cephanon). Brit. Med. J. 2 : 1234 `1237, ) STEWART, G. T. & R. J. HOLT : Laboratory and clinical results with cephaloridine. Lancet, II: , ) KARIYONE, K.; H. HARADA, M. KURITA & T. TAKANO : Cefazolin, a new semisynthetic cephalosporin antibiotic. I. Synthesis and chemical properties of cephazolin. J. Antibiotics 23: 131 `136, ) NISHIDA, M.; T. MATSUBARA, T. MURAKAWA, Y. MINE & Y. YOKOTA : Cefazolin, a new 1) CHAUVETTE, R. R.; E. H. FLYNN, B. G. JACK- SON, E. R. LAVAGNINO, R. B. MORIN, R. A. MUELLER, R. P. PIOCK, R. W. ROESKE, C. W. RYAN, J. L. SPENCER & E. VAN HEYNINGEN : Chemistry of cephalosporin antibiotics. II. Preparation of a new class of antibiotics and the relation of structure to activity. J. Am. Chem. Soc. 84 : 3401 `3402, ) BONIECE, W. B.; W. E. WICK, D. H. HOLMES & C. E, REDMAN : In vitro and in vivo laboratory evaluation of cephalothin, a new broad spectrum antibiotic. J. Bact. 84 : , ) Godzeski, C. W.; G. Brier & D. E. PAVEY : Cephalothin, a new cephalosporin with a broad antibacterial spectrum. Appl, Microbiol. 11 : 122 `127, ) CHANG, T. W. & L. Weinstein : In vitro biological activity of cephalothin. J. Bact. 85: 1022 `1027, 1963 semisynthetic cephalosporin antibiotic. II. In vitro and in vivo antimicrobial activity. J. Antibiotics 23 : 137 `148, ) SILVERBLATT, F,; W. O. HARRISON & M. TURCK : Nephrotoxicity of cefazolin antibiotics in experimental animals. J. Infect. Dis. 128 : S 367 `S 372, ) KNUSEL, F.; E. A. KONOPKA, J. GELZER & A. ROSSELET : Antimicrobial studies in viaro with CIBA 36, 278-Ba, a new cephalosporin derivative. Antimicr. Agents & Chemoth : 140 `449, ) KRADOLFER, F.; W. SACKMANN, O. Zak, H. BRUNNER, R. HESS, E. A. KONOPKA & J. GELZER : CIBA 36, 278-Ba : Chemotherapy and toxicology in laboratory animals. Antimicr. Agents & Chemoth :150 `455, ) REED, L. J. & H. MUENCH, : A simple method of estimating fifty per cent endopoints. Am. J. Hyg. 27 : 493, 1938
15 ANTIBACTERIAL ACTIVITY OF CEPHACETRILE KANJI TSUCHIYA, TAKESHI NISHI and TOKIKO OISHI Central Research Division, Takeda Chemical Industries, Ltd., Osaka, Japan SACHIKO GOTO and YASUKO KANEKO Department of Microbiology, Toho University of Medicine, Tokyo, Japan Cephacetrile (CEC) shows in vitro antibacterial activity against gram-positive and gram-negative bacteria as well as Cephalothin(CET), Cephaloridine (CER) and Cefazolin (CEZ). CEC exhibits stronger activity against clinical isolates of Proteus mirabilis than that of other cephalosporins. Several antibacterial features of CEC such as the influence of inoculum size, medium ph, effect of addition of horse serum, development of resistance, cross resistance, and bactericidal and bacteriolytic activity were shown to be almost identical to those of other cephalosporins. The antibacterial activity of CEC was stable in solution at ph levels of 2 to 9, especially at ph 4. The in vivo protective activity of CEC was slightly weak than that of CEZ in mice infected intraperitoneally with certain strains of the gram-positive species, and CEC has similar activity with CET in mice infected with certain strains of the gram-negative species.
b) Gram-negative bacteria Fig. 2 Sensitivity distribution of clinical isolates : E. coli Fig. 3 Sensitivity distribution of clinical isolates : Pseudomonas Fig. 1 Sensitivity distribution of clinical isolates
Table 1 Survival rates of infected mice given antibiotic doses producing peak serum a) S. aurcus Smith Challenge dose :7 ~10 (5% mucin) CFU/mouse. LD50: 1 ~103 (5% mucin) CFU/mouse. Table 2 Survival rates
1272 CHEMOTHERAPY MAR. 1975
1272 CHEMOTHERAPY MAR. 1975 VOL. 23 NO. 3 CHEMOTHERAPY 1273 Fig. 2 Minimal inhibitory concentration of aminoglycosides against 50 strains of Klebsiella Fig. 1 Minimal inhibitory concentration of aminoglycosides
Fig.1 Chemical structure of BAY o 9867
Fig.1 Chemical structure of BAY o 9867 CHEMOTHERAPY 43 Table 3 Antibacterial spectrum of gram negative bacteria Medium:Heart infusion agar (Nissui) Method:Agar dilution (Streak) CHEMOTHERAPY DEC 1985
Table 1. Antibacterial activity of cefdinir, cefixime, cefteram, cefuroxime, cefaclor and amoxicillin against standard strains Inoculum size: 108 cells/ml CFDN: cefdinir, CFIX: cefixime, CFTM: cefteram,
CHEMOTHERAPY SEPT. 1970
CHEMOTHERAPY SEPT. 1970 VOL. 18 NO. 5 CHEMOTHERAPY CHEMOTHERAPY SEPT. 1970 VOL. 18 NO. 5 CHEMOTHERAPY 691 692 CHEMOTHERAPY SEPT. 1970 VOL. 78 NO. CHEMOTHERAPY 5 写 真1 第1病 693 写 真4 日 In vitroの しCEZの 第22病
CHEMOTHERAPY NOV S. aureus, S. epidermidis, E. coli, K. pgeumoniae, E. cloacae, S. marcescens, P. mirabilis, Proteus, P. aeruginosa Inoculum siz
VOL.33 S-5 CHEMOTHERAPY 381 Fig. 1 Chemical structure of HAPA-B Chemical name 1-N-[(2S)-3-Amino-2-hydroxypropiony1]-4-0-(6-amino- 6-deoxy-a-D-glucopyranosyl)-6-013-deoxy-4-C-methyl- 3-(methylamino)-ƒÀ-L-arabinopyranosyl]-2-deoxystreptamine
Fig. 1 Chemical structure of DL-8280
Fig. 1 Chemical structure of DL-8280 Fig. 2 Susceptibility of cl in ical isolates to DL4280 Fig. 5 Susceptibility of clinical isolates to DL-8280 Fig. 3 Susceptibility of clinical isolates to DL-8280 Fig.
VOL.27 S-3 CHEMO THERAPY mido)-3-[[[1- (2-dimethylaminoethyl)-1H-tetrazol-5-yl] -thio] methyl]-ceph-3-em-4-carboxylic acid dihydro- S. aureus 209-P JC
![VOL.27 S-3 CHEMO THERAPY mido)-3-[[[1- (2-dimethylaminoethyl)-1H-tetrazol-5-yl] -thio] methyl]-ceph-3-em-4-carboxylic acid dihydro- S. aureus 209-P JC](/thumbs/95/124246112.jpg "VOL.27 S-3 CHEMO THERAPY mido)-3-[[[1- (2-dimethylaminoethyl)-1H-tetrazol-5-yl] -thio] methyl]-ceph-3-em-4-carboxylic acid dihydro- S. aureus 209-P JC")
VOL.27 S-3 CHEMO THERAPY mido)-3-[[[1- (2-dimethylaminoethyl)-1H-tetrazol-5-yl] -thio] methyl]-ceph-3-em-4-carboxylic acid dihydro- S. aureus 209-P JC, E. coli NIHJ JC-2 pneumoniae E. coli 106, K. pneumoniae
CHEMOTHERAPY Proteus mirabilis GN-79 Escherichia coli No. 35 Proteus vulgaris GN-76 Pseudomonas aeruginosa No. 11 Escherichia coli ML-1410 RGN-823 Kle
VOL. 29 NO.8 CHEMOTHERAPY 865 CHEMOTHERAPY Proteus mirabilis GN-79 Escherichia coli No. 35 Proteus vulgaris GN-76 Pseudomonas aeruginosa No. 11 Escherichia coli ML-1410 RGN-823 Klebsiella pneumoniae GN-69
988 CHEMOTHERAPY NOV. 1971
988 CHEMOTHERAPY NOV. 1971 VOL. 19 NO. 8 CHEMOTHERAPY 989 Effect of medium-ph and inoculum size on activity of SB-PC heart infusion agar, mcg/ml Sensitivity distribution of Staphylococci to SB-PC in surgical
CHEMOTHERAPY JUNE 1987 Table1 Media used *BHIB, brain heart infusion broth (Difco); /3 -NAD, S -nicotinamidoadeninedinucleotide (Sigma Chemical Co.);
VOL.35 S-2 CHEMOTHERAPY Fig.1 Chemical structure of carumonam CHEMOTHERAPY JUNE 1987 Table1 Media used *BHIB, brain heart infusion broth (Difco); /3 -NAD, S -nicotinamidoadeninedinucleotide (Sigma Chemical
VOL. 23 NO. 3 CHEMOTHERAPY 1067 Table 2 Sensitivity of gram positive cocci isolated from various diagnostic materials Table 3 Sensitivity of gram nega
1066 CHEMOTHERAPY MAR. 1975 Table 1 Sensitivity of standard strains VOL. 23 NO. 3 CHEMOTHERAPY 1067 Table 2 Sensitivity of gram positive cocci isolated from various diagnostic materials Table 3 Sensitivity
VOL.32 S-7 CHEMOTHERAPY Table 1 MIC of standard strains of CTRX Fig. 2 Cumulative curves of MIC S. aureus (26 strains )
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epidermidis, Enterococcus faecalis, Enterococcus Klebsiella pneumoniae, Proteus mirabilis, indolepositive Proteus spp., Enterobacter spp., Serratia
epidermidis, Enterococcus faecalis, Enterococcus Klebsiella pneumoniae, Proteus mirabilis, indolepositive Proteus spp., Enterobacter spp., Serratia Table 3. Overall clinical efficacy of cefozopran in
CHEMOTHERAPY APRIL 1992 Acinetobacter calcoaceticus Staphylococcus aureus, Escherichia coli P. aeruginosa E. eoli, Klebsiella pneumoniae Serratia marc
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VOL.32 S-9 CHEMOTHERAPY Table 1 Minimum inhibitory concentrations of AC-1370, CPZ and CAZ Table 2 Efficacy of AC-1370 and CPZ against systemic infections in mice *Inoculum size: 106 cells/ml * 95% confidence
CHEMOTHERAPY AUG. 1982 VOL. 30 NO. 8 CHEMOTHERAPY Fig.1 Relation between various-closis of cefazolin and detection rate of organisms in heart blood of dying mice with E. coli and P. aeruginosa infection
CHEMOTHERAPY JUN Citrobacter freundii 27, Enterobacter aerogenes 26, Enterobacter cloacae 27, Proteus rettgeri 7, Proteus inconstans 20, Proteus
VOL. 32 S-4 CHEMOTHERAPY Fig. 1 Chemical structure of sodium cefoperazone Fig. 2 Chemical structure of sodium cefoperazone CHEMOTHERAPY JUN. 1984 Citrobacter freundii 27, Enterobacter aerogenes 26, Enterobacter
Staphylococcus sp. K.pneumoniae P.mirabilis C.freundii E. cloacae Serratia sp. P. aeruginosa ml, Enterococcus avium >100ƒÊg/ml
CHEMOTHERAPY SEPT. 1992 cefoperazone ceftazidime (CAZ), imipenem (IPM) Staphylococcus sp., Enterococcus (CPZ), faecalis, Escherichia coli, Klebsiella pneumoniae, Citrobacter freundii, Enterobacter cloacae,
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VOL. 34 S-3 CHEMOTHERAPY Fig. 1 Structural formula of L-105 CHEMOTHERAPY JUNE 1986 VOL. 34 S-3 CHEMOTHERAPY Table 1 Antibacterial spectra of L-105 against gram negative anaerobic rods Inoculum 106 cells/ml
CHEMOTHERAPY Methicillin-resistant S.aureus(MRSA) coccus epidermidis 105 Streptococcus pyogenes E.faecali senterococcus avium Enterococcus faecium Str
cefaclor(ccl),cefuroxime(cxm),cefixime (CFIX),cefteram(CFTM),cefdinir(CFDN) pneumoniae,streptococcus pyogenes Moraxella catarrhalis,haemophilus influenzae,escherichia coli, Klebsiella pneumoniae,proteus
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CHEMOTHERAPY OCT. 1994 Tazobactam Piperacillin Fig. I. Chemical structures of tazobactam and piperacillin. Table 1. Media used for preculture and MIC determination BHIB: Brain heart infusion broth (Difco),
Clostridium difficile ciprofloxacin, ofloxacin, norfloxacin Bifidobacterium Lactobacillus Lactobacillus Bacteroides fragilis B. fragilis C. difficile
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VOL. 30 S-3 CHEMOTHERAPY imeumoniae, Serratia marcescens, Proteus sp, CHEMOTHERAPY DEC. 1982 Table 1 Antibacterial spectra of T-1982, CTT, CMZ, CTX, CPZ and CEZ 106 CFU/ml Note: P; Peptococcus, S; Streptococcus,
VOL. 33 S-5 CHEMO THERAPY Fig. 1 Chemical structure of HAPA-B 1-N-[ (2 S)-3-Amino-2-hydroxypropiony1]-4- O-(6-amino-6 - deoxy-ƒ -D- glucopyranosyl) -6
![VOL. 33 S-5 CHEMO THERAPY Fig. 1 Chemical structure of HAPA-B 1-N-[ (2 S)-3-Amino-2-hydroxypropiony1]-4- O-(6-amino-6 - deoxy-ƒ -D- glucopyranosyl) -6](/thumbs/101/149863612.jpg "VOL. 33 S-5 CHEMO THERAPY Fig. 1 Chemical structure of HAPA-B 1-N-[ (2 S)-3-Amino-2-hydroxypropiony1]-4- O-(6-amino-6 - deoxy-ƒ -D- glucopyranosyl) -6")
VOL. 33 S-5 CHEMO THERAPY Fig. 1 Chemical structure of HAPA-B 1-N-[ (2 S)-3-Amino-2-hydroxypropiony1]-4- O-(6-amino-6 - deoxy-ƒ -D- glucopyranosyl) -6- O-[3-deoxy-4 -C-methyl-3 -(methylamino) -ƒà-l- arabinopyranosyl]-2
Key words: Disinfectants, Gram negative rods, Bactericidal effect P. aeruginosa 1, P. fluorescens 20 P. putida 179, P. cepacia 216 P. maltophilia 227,
Key words: Disinfectants, Gram negative rods, Bactericidal effect P. aeruginosa 1, P. fluorescens 20 P. putida 179, P. cepacia 216 P. maltophilia 227, P. putrefaciens 279 A. faecalis 120, A. ordrans 114
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CHEMOTHERAPY Table 1 Urinary excretion of mezlocillin Fig. 4 Urinary excretion of mezlocillin Fig. 3 Blood levels of mezlocillin
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Table 1. Antibacterial activitiy of grepafloxacin and other antibiotics against clinical isolates
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coccus aureus Corynebacterium sp, Haemophilus parainfluenzae Klebsiella pneumoniae Pseudornonas aeruginosa Pseudomonas sp., Xanthomonas maltophilia, F
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Key Words: Klebsiella pneumoniae, CEP-AIS, MIC, "MBC", MIC of drugs in combination Fig. 1. The following three kinds of overnight broth cultures of 10 strains of Kl. pneumoniae were inoculated on the agar
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CHEMO THE RAPY OCT. 1994
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CHEMOTHERAPY MAY. 1988 CHEMOTHERAPY Fig. 1 Chemical structure CHEMOTHERAPY MAY. 1988 VOL.36 5-1 CHEMOTHERAPY CHEMOTHERAPY MAY. 1988 VOL.36 S-1 CHEMOTHERAPY CHEMOTHERAPY MAY. 1988 VOL.36 S-1 CHEMOTHERAPY
Key words: E. coli O 157: H7, fosfomycin, verotoxin, mouse infection
Key words: E. coli O 157: H7, fosfomycin, verotoxin, mouse infection Table 1. Bacterial cell counts in feces of mice infected with Esclwrichia coli O 157: H7 NK2 before and during oral dosing with fosfomycin
VOL. 21 NO. 2 CHEMOTHERAPY 137
VOL. 21 NO. 2 CHEMOTHERAPY 137 Minimal inhibitory concentration (mcg/m1) of TM? and SMX in MUELLER-HINTON agar with 7.5% lysed horse blood, Diagnostic sensitivity test medium with 7. 596 lysed horse blood
CHEMOTHERAPY OCT Fig. 1 Chemical structure of CVA-K
OCT. 1986 Fig. 1 Chemical structure of CVA-K VOL.34 S-4 heart infusion broth (Difco) 37.0 g, Resazurin 0.1% alcoholic solution (Wako) 1.0 ml, L-Cystein-HCl H2O (Wako) 0.5 g, Bact agar (Difco) 1.0 g, Deionized
Dec. THE JAPANESE JOURNAL OF ANTIBIOTICS XXXVII (45)
Dec. THE JAPANESE JOURNAL OF ANTIBIOTICS XXXVII-12 2305(45) 2306(46) THE JAPANESE JOURNAL OF ANTIBIOTICS XXXVII-12 Dec. Dec. THE JAPANESE JOURNAL OF ANTIBIOTICS XXXVII-12 2307(47) 2308(48) THE JAPANESE
Table 1. Influence of urine ph on MBCs of new quinolones against Escherichia coli NIHJ JC-2 and Pseudomonas aeruginosa 18S; MBCs in urine were compared with those in Miieller-Hinton broth. Table 2. Influence
CHEMOTHERAPY
CHEMOTHERAPY CHEMOTHERAPY Table 1 Antibacterial activity of Sulbactam/CPZ against standard strains MIC mg/ml Inoculum size 106 CFU/ml * Sulbactam/CPZ= 1: 1 ** Concentration of Sulbactam+ CPZ CHEMOTHERAPY
CHEMOTHERAPY Table 2 Clinical response of 6059-S by infection Table 3 Effect of 6059-S on blood chemistry *Normal range : S-GOT 20 `60 mu/ml, S-GPT 5 `25 IU/L, Al-Pase 30 `85 mu/ml In oilier cases : S-GOT
Table 1.Resistance criteria Fig.1.The resistance rates of piperacillin,ceftazidime, cefsulodin,imipenem,aztreonam,gentamicin,tobramycin,amikacin,isepamicin,fosfomycin and ofloxacin against 2,793 strains
VOL. 40 S- 1 Table 1. Susceptibility of methicillin-resistant Staphylococcus aureus to meropenem Table 2. Coagulase typing of methicillin-resistant St
CHEMOTHERAPY VOL. 40 S- 1 Table 1. Susceptibility of methicillin-resistant Staphylococcus aureus to meropenem Table 2. Coagulase typing of methicillin-resistant Staphylococcus aureus CHEMOTHERAPY Table
CHEMOTHERAPY APR Fig. 2 The inactivation of aminoglycoside antibiotics by PC-904 Fig. 3 Serum concentration of PC-904 (1) Fig. 4 Urinary recover
VOL.26 S-2 CHEMOTHERAPY Gentamicin (GM), Dibekacin (DKB), Tobramycin Fig. 1 Protein concentration and protein binding rate Table 2 Protein binding rate of PC-904 in serum of healthy adults, and patients
Table 1.Quality control of MICs for reference strains Table 2.Antimicrobial activity of gatifloxacin against aerobic bacteria Table 4.Antimicrobial activity of gatifloxacin and other quinolones against
Table 1.Concentration of gatifloxacin (Middle-ear) Table 2.Concentration of gatifloxacin (Paranasal sinuses) Table 3.Concentration of gatifloxacin (Tonsil) Table 4.No.of patients studied Table 5.Background
CHEMOTHERAPY Fig. 1 Body weight changes of pregnant mice treated orally with AM- 715 Day of sestation
CHEMOTHERAPY CHEMOTHERAPY Fig. 1 Body weight changes of pregnant mice treated orally with AM- 715 Day of sestation CHEMOTHERAPY Table 1 Preliminaly test of AM- 715 1): Mean } SD *: Significant difference
Key words: Surfactant, Tween, Legionella
Key words: Surfactant, Tween, Legionella Fig. 1 Inhibitory Activity of Various Tween Against Legionella pneumophila Fig. 2 Inhibitory Activity of Various Tween Against Legionella bozemanii Fig. 3 Inhibitory
CHEMOTHERAPY MAY 1988 Table 1 Media used for preculture and MIC determination *BHIB: Brain heart infusion broth (Difco), B-NAD: B-Nicotinamide adenine dinucleotide (Sigma chemical Co.), GAMB GAM broth
THE JAPANESE JOURNAL OF ANTIBIOTICS 48-8 Enterococcus avium 5Š, Corynebacterium xerosis 10Š, Corynebacterium pseudodiphtheriticum 10Š, Corynebacterium
THE JAPANESE JOURNAL OF ANTIBIOTICS 48-8 Enterobacter spp., Serratia spp., Burkholderia cepacia, Flavobacterium spp., Alcaligenes spp. THE JAPANESE JOURNAL OF ANTIBIOTICS 48-8 Enterococcus avium 5Š, Corynebacterium
VOL. 34 S-2 CHEMOTH8RAPY 913
VOL. 34 S-2 CHEMOTH8RAPY 913 914 CHEMOTHERAPY APR. 1986 Fig. 1 Chemical structure of T-2588 and T-2525 T- 2588 pivaloyloxymethyl (+ )- (6 R, 7 R)-7-[(Z)-2- (2-amino- 4-thiazolyl)-2-methox yiminoacetamido]-3-[(
Table 1 Patients with various renal function * Ccr, Creatinine clearance ml/min per 1. 48 m2 ** C.V.D., Cerebral vascular disease ; C.R F., Chronic renal failure ; H.D., Hemoclialysis ; D., Dialyzer ;
pneumoniae 30, C. freundii 32, E. aerogenes 27, E. cloacae 32, P. mirabilis 31, P. vulgaris 34, M. morganii 32, S. marcescens 31, H. influenzae 27, P.
pneumoniae 30, C. freundii 32, E. aerogenes 27, E. cloacae 32, P. mirabilis 31, P. vulgaris 34, M. morganii 32, S. marcescens 31, H. influenzae 27, P. aeruginosa 30, P. maltophilia pyogenes 32, Escherichia
VOL.35 S-2 CHEMOTHERAPY Table 1 Sex and age distribution Table 2 Applications of treatment with carumonam Table 3 Concentration of carumonam in human
CHEMOTHERAPY Fig. 1 Chemical structure of carumonam Disodium(+)-(Z)-CCE1-(2-amino-4-thiazoly1)-2-[[(2S, -(carbamoyloxymethyl)-4-oxo-1-sulfonato-3-azetidinyll -2-oxoethylidene] amino] oxy] acetate 3S)-2
Cephaloridine Conc. 125mcg/m/+ DC 10mg/ml Cephaloridine Conc. 125mcg/ml C- adap+ E. coli Ampicillin Conc. 125mcg/ml+C 10mg/ml Cephaloridine Conc. 12.5mcg/ml D-adap+E.coil JORGENSEN : Alteration of bile
co Kanamycin (KM), Streptomycin (SM), Fradiomycin Table 2. Comparison of antibacterial activity of 3', 4'-dideoxykanamycin B with that of other antibi
Fig. 1. Chemical structure of 3', 4'-dideoxykanamycin B co Kanamycin (KM), Streptomycin (SM), Fradiomycin Table 2. Comparison of antibacterial activity of 3', 4'-dideoxykanamycin B with that of other antibiotics
Jan THE JAPANESE JOURNAL OF ANTIBIOTICS XL-1 Table 1. Outline of administering doses, routes and sampling times *: 4 ml/hr/kg Bacillus subtilis
THE JAPANESE JOURNAL OF ANTIBIOTICS XL-1 Jan. 1987 Jan. 1987 THE JAPANESE JOURNAL OF ANTIBIOTICS XL-1 Table 1. Outline of administering doses, routes and sampling times *: 4 ml/hr/kg Bacillus subtilis
THE JAPANESE JOURNAL OF ANTIBIOTICS XXII-4 Aug. viable cell number was counted, the number decreased remarkably, then increasedrapidly number as the c
THE JAPANESE JOURNAL OF ANTIBIOTICS XXII-4 Aug. viable cell number was counted, the number decreased remarkably, then increasedrapidly number as the control. to the same (2) The some results were obtained
1) i) Barber, M. et al.: Brit. Med J, 2, 565, 19'49. ii) Barber, M.F.G. J. Hayhoe and J. E. M. Whithead: Lancet, 1120 `1125, 1949.-2) Bergey: Bergey's Manual of Determinative Bacteriology 7 th Ed: (1958).-3)
Streptococcus pneumoniae,streptococcus pyogenes,streptococcus agalactiae,neisseria gonorrhoeae,h.influenzae,moraxella subgenus Branhamella catarrharis
Streptococcus pneumoniae,streptococcus pyogenes,streptococcus agalactiae,neisseria gonorrhoeae,h.influenzae,moraxella subgenus Branhamella catarrharis, E.coil,Klebsiella pneumoniae,klebsiella oxytoca,proteus
VOL. 43 NO. 4
VOL. 43 NO. 4 Fig. 1. Frequency of Enterococcus species from complicated UTI, 1988-1992. the number * of Enterococcus species/the number of cases with complicated UTI. Fig. 3 Epidemiologic characteristics
日本化学療法学会雑誌第53巻第S-3号
moxifloxacin in vitro moxifloxacin in vitro 17 9 6 17 11 21 moxifloxacinmflx in vitro cefdinir CFDNclavulanic acidamoxicillincvaampcclarithromycincamclindamycincldm levofloxacinlvfx 1MFLX Clostridium clostridiiformeclostridium
VOL. 37 NO. 3 Key words: Drug allergy, LMIT, Penams, Cephems, Cross-reactivity
VOL. 37 NO. 3 Key words: Drug allergy, LMIT, Penams, Cephems, Cross-reactivity CHEMOTHERAPY MAR. 1989 Mble 1. Allcrgy in parients nduced by penams VOL. 37 NO. 3 Table 2. Allergy in patients induced by
CHEMOTHERAPY 34 T-2588の APR.1986 嫌 気 性 菌 に 対す る抗 菌 作 用 に つ い て 沢 赫 代 神 野 英 毅 青 木 誠 小 林 と よ子 渡 辺 邦 友 上 野 一 恵 岐阜大学医学部附属嫌気性菌実験施設 新 し く 開 発 さ れ た 経 口 用 エ ス テ ル 型 セ フ ェ ム 系 抗 生 剤T-2588の 口 剤 で あ るcephalexin(CEX),cefaclor(CCL)
Fig. 1 Chemical structure of TE-031 Code number: TE-031 Chemical name: (-) (3R, 4S, 5S, 6R, 7R, 9R, 11R, 12R, 13S, 14R)-4-[(2, 6-dideoxy-3-C-methyl-3-
Fig. 1 Chemical structure of TE-031 Code number: TE-031 Chemical name: (-) (3R, 4S, 5S, 6R, 7R, 9R, 11R, 12R, 13S, 14R)-4-[(2, 6-dideoxy-3-C-methyl-3-O-methyl-a-L-ribo-hexopyranosyl) oxy]-14-ethyl-12,
VOL. 24 NO. 1 @ CHEMOTHERAPY @ 373 Table 2 Serum level of CEC after intramuscular injection of 1000 mg Table 3 Concentration of CEC in serum and palatine tonsil (One hour after intramuscular injection
dihydrostreptomycin(sm), sulfanilamide(sa), kanamycin(km), paromomycin(prm), fradiomycin(frm), ampicillin(apc), cephaloridine (CER), nalidixic acid(na
Key words: Shigella, Bacterial resistance against entibiotics. Distribution of R factors dihydrostreptomycin(sm), sulfanilamide(sa), kanamycin(km), paromomycin(prm), fradiomycin(frm), ampicillin(apc),
Fig. 1. Structures of NM394, NAD-358 and NAD-245 Fig. 2. Typical HPLC chromatograms of NM394 in human plasma by organic solvent extraction method (a): Blank plasma (b): Plasma spiked with NM394 and internal
Key words : 7432-S, Oral cephem, Urinary tract infection Fig. 1. Chemical structure of 7432-S.
Key words : 7432-S, Oral cephem, Urinary tract infection Fig. 1. Chemical structure of 7432-S. Table 1. Clinical summary of acute uncomplicated cystitis patients treated with 7432-S UTI : Criteria by the
Table 1. Concentration of ritipenem in plasma, gallbladder tissue and bile after ritipenem acoxil administration (200 mg t.i.d., 3 days) N.D.: not det
Table 1. Concentration of ritipenem in plasma, gallbladder tissue and bile after ritipenem acoxil administration (200 mg t.i.d., 3 days) N.D.: not detected *: time after last administration Table 2. Concentration