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2 1) Chemical name: Fig. 1 Chemical structure of TE-031 (-)-(3R,4S,5S,6R,7R,9R,11R,12R,13S,14R)-4-[(2, PYranosyl)oxy]-14-ethyl-12,13-dihydroxy-7-meth 6-dideoxy-3-C-methyl-3-O-methyl-a-L-ribo-hexo- oxy-3,5,7,9,11,13-hexamethy1-6-[[3,4,6-trideoxy-3- (dimethylamino)-Ĉ-1)-xylo-hexopyranosyl] oxacyclotetradecane-2,10-dione 2) Chemical structure 3) Molecular formula: C38H69NO13 4) Molecular weight: oxy]
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14 Table 2 Distribution of sex and age Table 3 Distribution of sex and weight Mean: 56.8kg Table 4 Clinical efficacy of TE-031 classified by duration of administration
15 Table 5 Clinical efficacy of TE-031 classified by daily dose x2 test
16 Table 6 Clinical efficacy of TE-031 (Physician's assessment) Table 7 Clinical efficacy of TE-031 (Attending comittee's assessment) Table 8 Clinical effect of TE-031 against cases pretreated with other antibiotics
17 Table 9 Bacteriological efficacy of TE-031 calssified by diagnosis Table 10 Bacteriological efficacy of TE-031 classified by clinical isolates
18 Table 11 Bacteriological efficacy of TE-031 classified by clinical isolates
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21 Table 13 MICs of TE-031 against clinical isolates (106 cells/ml)
22 Fig. 2 Susceptibility of S. aureus to TE-031 (106 cells/ml) Fig. 3 Susceptibility of S. aureus to TE-031 (108 cells/ml)
23 2) Y. MIZUSHIMA and H. HIRATSUKA: FIRST STUDY ON THE PHARMACOKINETICS AND SAFETY OF TE-031 (A-56268) IN VOLUNTEERS, AB- STRACT 418, 26th Interscience Conference on Antimicrobial Agents and Chemotherapy, New Orleans, ) T. SUWA, H. YOSHIDA, S. YOSHITOMI and K. KAMEI: METABOLISM OF TE-031 (A-56268), A NEW MACROLIDE ANTIBIOTIC, IN RAT, DOG, MONKEY AND MAN, ABSTRACT 414, 26th ICAAC, New Orleans, ) T. SUWA, H. YOSHIDA, Y. KOHNO, K. FUKUSHIMA and H. KOBAYASHI HIGH DISTRIBUTION OF TE-031 (A-56268), A NEW MACROLIDE ANTIBIOTIC, IN THE LUNG, ABSTRACT 417, 26th ICAAC, New Orleans, ) S. MITSUHASHI, T. ONO, T. NAGATE, K. SUGITA and S. OMURA A NEW MACROLIDE ANTIBIOTIC, TE-031 (A-56268); IN VITRO AND IN VIVO ANTIBACTERIAL ACTIVITIES, ABSTRACT 412, 26th ICAAC, New Orleans, ) T. NAGATE, T. ADACHI, T. OTAKE, H. YOSHIDA, J. MIYAJI, E. SEKIGUCHI, S. MORIMOTO and S. OMURA: A NEW MACROLIDE ANTIBIOTIC, TE-031 (A ); STRUCTURES AND ACTIVITIES OF METABOLITES, ABSTRACT 410, 26th ICAAC, New Orleans, 1986
24 CLINICAL STUDY ON TE-031(A-56268), A NEW MACROLIDE ANTIBIOTIC, IN SKIN AND SOFT-TISSUE INFECTIONS IN THE FIELD OF SURGERY ISSEI NAKAYAMA Third Department of Surgery, School of Medicine, Nihon University, Tokyo EMIKO YAMAJI, HIROSHI KAWAMURA and HIROSHI KAWAGUCHI Center of Health Science, Microbiological Section, School of Medicine, Nihon University, Tokyo Yozo AKIEDA Department of Surgery, Akieda Hospital, Tokyo TETSUYA WATANABE Department of Surgery, Itabashi Chuo Sogo Hospital, Tokyo TOSHIAKI SUZUKI Department of Surgery, Kanamecho Hospital, Tokyo KANJI ITOKAWA Department of Surgery, Seya Chuo Hospital, Tokyo KAZUE UENO, KUNIT0M0 WATANABE and TERUKO KANAZAWA Institute of Anaerobic Bacteriology, Gifu University School of Medicine, Gifu We carried out a clinical study on TE-031(A-56268), a new oral macrolide antibiotic, in the treatment of surgical skin and soft tissue infections. TE- 031 was administered to 110 patients with infections including subcutaneous abscess, infected atheroma, felon, phlegmon, furuncle, post-traumatic and post-operative wound infection, lymphangitis, lymphadenitis, paronychia, periproctal abscess, suppurative mastitis, suppurative hidradenitis, infectious thrombophlebitis, folliculitis and carbuncle. The results of the evaluation of clinical efficacy by the physicians-in-charge were: excellent 13, good 75, fair 12 and poor 10. The overall clinical efficacy rate was 80.0%. On the other hand, when the evaluation was carried out in accordance with a uniform set of evaluation criteria(i.e., the Committee's assessment), the results were: excellent cases 34, good 51, fair 13 and poor 12, the overall clinical efficacy rate being 77.3%. Bacteriologically, the eradication rate of causative bacteria was 100% in 39 cases of single infection, and 97.1% in 34 cases of mixed infection. In 14 cases which had not responded to previous antibiotic therapy, good or excellent results were obtained in 10, the clinical efficacy rate being 71.4%. With regard to side-effects in the 110 cases, loose stool was noted in 2 cases, and eruption, small papules and epigastric pain in one case each. All these side-effects were mild. No particular abnormalities were observed in laboratory findings. MICs against 98 strains of 34 clinically isolated organisms revealed that 69 of 98 strains (70.0%)were inhibited by a concentration of 3.13ƒÊg/ml or less.
CHEMOTHERAPY MAY. 1988
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
VOL.42 S-1
CHEMOTHERAPY APR. 1994 VOL.42 S-1 CHEMOTHERAPY APR. 1994 Table 1. Criteria for evaluation of clinical efficacy by the Japanese Society of Oral and Maxillo-Facial Surgeons Grades of symptoms and numerical
CHEMOTHERAPY JUNE 1993 Table 1. Background of patients in pharmacokinetic study
CHEMOTHERAPY JUNE 1993 Table 1. Background of patients in pharmacokinetic study VOL. 41 S 1 Table 2. Levels (Đg/ml or Đg/g) of S-1006 in serum, bile, and tissue (gallbladder) after oral administration
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
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.
Fig. 1 Chemical structure of KW-1070
Fig. 1 Chemical structure of KW-1070 Fig. 2 Sensitivity distribution of clinical isolates Fig. 4 Sensitivity distribution of clinical isolates Fig. 3 Sensitivity distribution of clinical isolates Fig.
CHEMOTHERAPY FEB Table 1. Activity of cefpirome and others against clinical isolates
VOL.39 S-1 CHEMOTHERAPY FEB. 1981 Table 1. Activity of cefpirome and others against clinical isolates VOL.39 S-1 CHEMOTHERAPY FEB. 1991 72 M, 55.5 kg 66 F, 53 kg Chronic bronchitis Bronchopneumonia Peak
CHEMOTHERAPY Fig. 1 Chemical structure of CXM-AX
Fig. 1 Chemical structure of CXM-AX NOV. 1986 Fig. 2 Sensitivity distribution of clinical isolates organisms (106 cells/ml) a Smurcus 27 strains d) P.m irabilis 15 strains b Ecol i 27 strains 111.morganii
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 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
Fig. 1 Chemical structure of norfloxacin Table 1. Institutes attended to the study The Department of Dermatology, Defense Medical College The Department of Dermatology, School of Medicine, Teikyo University
Table 1. Antibacterial activitiy of grepafloxacin and other antibiotics against clinical isolates
Table 1. Antibacterial activitiy of grepafloxacin and other antibiotics against clinical isolates Table 2-1. Summary of patients treated with grepafloxacin for respiratory infection 1) Out: outpatient,
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-[(
CHEMOTHERAPY
CHEMOTHERAPY VOL.41 S-2 Laboratory and clinical evaluation of teicoplanin CHEMOTHERAPY AUG. 1993 VOL.41 S-2 Laboratory and clinical evaluation of teicoplanin Table 1. Comparative in vitro activity of teicoplanin
Fig. 1 Chemical structure of norfioxacin (AM-715)
Fig. 1 Chemical structure of norfioxacin (AM-715) Table 1 Serum and biliary concentration of norfloxacin (AM-715) Table 2 Protocol for clinical evaluation of norfloxacin (AM-715) in the treatment of biliary
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
CHEMOTHERAPY Table 1 Clinical effect of Sultamicillin
CHEMOTHERAPY CHEMOTHERAPY Table 1 Clinical effect of Sultamicillin CHEMOTHERAPY Fig. 1 MICs of sultamicillin against respiratory pathogenic Branhamella catarrhalis 62 strains, inoculum size 106CFU/m1 Fig.
Fig.2. Sensitivity distribution of clinical isolates of S. epidermidis (24 strains, 106 CFU/ml) Staphylococcus aureus Staphylococcus epider- midis Ent
Fig.2. Sensitivity distribution of clinical isolates of S. epidermidis (24 strains, 106 CFU/ml) Staphylococcus aureus Staphylococcus epider- midis Enterococcus faecalis Klebsiella pneumoniae, Morganella
Table 1 Antibacterial spectra of CPM and other antimicrobials against anaerobes Fig. 1 In vitro activity of CPM and other antibiotics against B. fragilis (136 strains) Fig. 2 In vitro activity of CPM and
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 Silver sulfadiazine (T 107) CHEMOTHERAPY Fig. 1 Item of patients Table 1 Criteria of bacteriological efficacy by the Committee xcellent: E Score of infection becomes to 0% at the end of medication.
CHEMOTHERAPY Table 1 Urinary excretion of mezlocillin Fig. 4 Urinary excretion of mezlocillin Fig. 3 Blood levels of mezlocillin
CHEMOTHERAPY Fig. 2 Urinary excretion of mezlocillin Fig. 1 Blood levels of mezlocillin CHEMOTHERAPY Table 1 Urinary excretion of mezlocillin Fig. 4 Urinary excretion of mezlocillin Fig. 3 Blood levels
2108 CHEMOTHERAPY SEPT Table 1 Antimicrobial spectrum Fig. 1
2108 CHEMOTHERAPY SEPT. 1977 Table 1 Antimicrobial spectrum Fig. 1 VOL. 25 NO. 7 CHEM 014 HERAPY 2109 Table 2 Susceptibility distribution of Staphylococcus aureus to aminoglycosides (54 strains) Table
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
Clostridium difficile ciprofloxacin, ofloxacin, norfloxacin Bifidobacterium Lactobacillus Lactobacillus Bacteroides fragilis B. fragilis C. difficile
Clostridium difficile ciprofloxacin, ofloxacin, norfloxacin Bifidobacterium Lactobacillus Lactobacillus Bacteroides fragilis B. fragilis C. difficile Key words: temafloxacin, TA-167, Bacteroides fragilis,
CHEMOTHERAPY DEC Table 1 Antibacterial spectra of T-1982, CTT, CMZ, CTX, CPZ and CEZ 106 CFU/ml Note: P; Peptococcus, S; Streptococcus, G; Gaffk
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,
Table 1. Antibacterial spectrum SBT ABPC ABPC CPZ : sulbactamiampicillin : ampicillin : cefoperazone
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日本化学療法学会雑誌第59巻第5号
Streptococcus pneumoniae Haemophilus influenzae Moraxella catarrhalis S. pneumoniae H. influenzae M. catarrhalis S. pneumoniae H. influenzae M. catarrhalis S. pneumoniae H. influenzae M. catarrhalis S.
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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 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 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
Table1MIC of BAY o 9867 against standard strains
Table1MIC of BAY o 9867 against standard strains Fig.2Cumulative and Distribution Curves of MIC (S.aureus 54 strains) 106cfu/ml Fig.3Correlogram of MIC (S.aureus 54 strains) CHEMOTHERAPY 451 Fig.4Cumulative
VOL. 17 NO. 7 CHEMOTHERAPY 1305 1) W. BRumFirr et al. : Clinical and laboratory studies with carbenicillin. Lancet 1: 1289~ 1293, 1967 2) E. T. KNUDSEN et al. : A new semisynthetic penicillin active against
Fig.1 MICs of penicillins against 24 strains of B. pertussis Fig.2 MICs of cepherns against 24 strains of B. pertussis Fig.3 MICs of macrolides against 24 strains of B. pertussis Fig.4 MICs of nalidixic
400 46 THE JAPANESE JOURNAL OF ANTIBIOTICS 65 6 Dec. 2012 LVFX 100 mg 3 / 7 150 mg 2 / 7 2 2006 2008 9 LVFX PK PD 2009 7 100 mg 1 3 500 mg 1 1 AUC/MIC
Dec. 2012 THE JAPANESE JOURNAL OF ANTIBIOTICS 65 6 399 45 2012 11 5 LVFX 500 mg 1 1 20 Chlamydia trachomatis C. trachomatismycoplasma genitalium M. genitalium LVFX 1 500 mg 1 1 7 22 22 C. trachomatis 17
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
Table 1 Classification of female patients with vealcal irritating symptom by their signs Urination pain with other vesical irritability or not Table 2 Serum levels of DL-8280 after a single oral administration
CHEMOTHERAPY APR Fig. 1 Chemical structure of cefotetan (CTT, YM09330)
CHEMOTHERAPY APR. 1982 Fig. 1 Chemical structure of cefotetan (CTT, YM09330) VOL.30 S-1 CHEMOTHERAPY Fig. 2 Comparison of standard curves of CTT on various test organisms by cylinder plate method Column
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
Key words : R-plasmid, Urinary tract infection, E. coli Fig. 1. MIC distribution against E. coli isolated from urinary tract (366 strains) and isolation - frequencies of drug-resistant strains Table 1.
VOL.30 NO.10 CHEMOTHERAPY 1123 Fig,1 Group B case 6 hepatolithiasis,e.k.66 y.0.,f.45kg Postoperative wound infection Fig.2 Group B case 15 gastric cancer,k.k.60 y.o.,m. Postoperative peritonitis Fig.3
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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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
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
366 12 THE JAPANESE JOURNAL OF ANTIBIOTICS 65 6 Dec. 2012 1 8 DNA 2,3 16 12 20 171 2008 12 2010 11 2 3,558 4.44% 1.65% 1.17% 90% 9 Escherichia coli -
Dec. 2012 THE JAPANESE JOURNAL OF ANTIBIOTICS 65 6 365 11 sita oxacin 1 1 1 1 1 1 2 2 3 3 1 1 1 2 3 2012 9 14 sita oxacin STFX 50 mg 10% 2008 1 2008 12 2010 11 2 STFX 1,452 91.4% 1,235/1,351 95.9% 466/486
日本化学療法学会雑誌第60巻第4号
Streptococcus pneumoniae Haemophilus influenzae S. pneumoniae H. influenzae Key words β Streptococcus pneumoniae Haemophilus influenzae S. pneumoniae H. influenzae μ μ S. pneumoniae H. influenzae S. pneumoniae
CHEMOTHERAPY APR Fig. 1 Chemical structure of cefotetan (CTT, YM09 Molecular formula (Molecular weight) C17H15N7Na2OS4(619.57)
CHEMOTHERAPY APR. 1982 Fig. 1 Chemical structure of cefotetan (CTT, YM09 Molecular formula (Molecular weight) C17H15N7Na2OS4(619.57) VOL.30 S-1 CHEMOTHERAPY Table 1 Method of HPLC-assay of CTT and its
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)
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 DEC phvlococcus aureus Staphylococcus Enterococcus faecalis Escherichia Klebsiella pneumoniae Serratia marcescens Pseudomonas cepac
CHEMOTHERAPY DEC. 1988 phvlococcus aureus Staphylococcus Enterococcus faecalis Escherichia Klebsiella pneumoniae Serratia marcescens Pseudomonas cepacia 1 Bacteroides bivius Propionibacterium granulosum
Hisao Takayasu Department of Urology, Faculty of Medicine, University of Tokyo Masaaki Ohkoshi Department of Urology, Tokai University School of Medic
COMPARATIVE CLINICAL EFFECT OF AMIKACIN AND GENTAMICIN ON COMPLICATED URINARY TRACT INFECTIONS BY DOUBLE-BLIND METHOD Tsuneo Nishiura and Yukimichi Kawada Department of Urology, Gifu University School
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
Table 1.Distribution and number of cases with acute upper respiratory tract infections classified according to antimicrobial agents administered Table 2. Distribution of cases which were enrolled to set
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. 36 S-3 CHEMOTHERAPY 437
VOL. 36 S-3 CHEMOTHERAPY 437 438 CHEMOTHERAPY JULY 1988 Fig. 1 Contractile response of gastrointestinal tract to intravenous administration of saline and EM in interdigestive state in dogs (a) : Saline,
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 ;
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
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
Osamu NEMOTO, M.D. Clinical and Bacteriological Research of Sucrose/ Povidone-Iodine Ointment (U-PASTA kowa) for Pressure Sores and Skin Ulcers Osamu Nemoto Department of Dermatology,Tonan Hosptal
CHEMOTHERAPY APR. 1982
VOL.30 S-1 CHEMOTHERAPY Table 1 Dose of CTT and subjects i. v.: Intravenous bolus injection d. i. v.: Intravenous drip infusion i. m.: Intramuscular injection Fig. 1 Schedule for examination of CTT, 1.0g
2) Goetz, A., Tsuneishi, N.: Application of molecular filter membranes to the bacteriological analysis of water, J. Am. Water Works Assn., 43 (12): 943-969,1951. 3) Clark, H.F. et al.: The membrane filter
CHEMOTHERAPY JUNE 1988 ( })-1-ethyl-6,8-difluoro-1,4-dihydro-7-(3-methyl-l-piperaziny1) 4-oxo-3-quinolinecarboxylic acid hydrochloride Fig. 1. Chemica
CHEMOTHERAPY JUNE 1988 ( })-1-ethyl-6,8-difluoro-1,4-dihydro-7-(3-methyl-l-piperaziny1) 4-oxo-3-quinolinecarboxylic acid hydrochloride Fig. 1. Chemical structure of NY-198 VOL. 36 5-2 CHEMOTHERAPY Mouse
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
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
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,