OBJECTIVEChronic prostatitis, especially type III A, is a common disease in adult males, for which there are quite a few therapeutic methods. This study aimed to investigate the clinical efficacy of enoxacin in the treatment of III A prostatitis.

METHODSWe selected 198 cases of III A prostatitis with complete treatment and follow-up data from the outpatients, all treated by enoxacin injection for 1 week, followed by oral medication of enoxacin for 2 weeks. Then we evaluated the therapeutic effect based on the NIH-CPSI scores and changes in the indexes of expressed prostatic secretions (EPS).

RESULTSThe rate of total effectiveness was 86.4%, cure 8.6% (17/198), remarkable effectiveness 58.1% (115/198), improvement 19.7% (39/198), and ineffectiveness 13.6% (27/198). Only 16 cases (8.1%) complained of transitory gastrointestinal tract discomfort and/or skin itching.

CONCLUSIONEnoxacin has desirable efficacy and few adverse effects on type III A prostatitis.

Adult ; Anti-Infective Agents ; therapeutic use ; Chronic Disease ; Enoxacin ; therapeutic use ; Humans ; Male ; Middle Aged ; Prostatitis ; drug therapy ; Treatment Outcome ; Young Adult

AIMTo study the synthesis and antibacterial activity of pyridonecarboxylic acid derivatives containing 2-methyl-5-nitroimidazol.

METHODSPyridonecarboxylic acid derivatives containing 2-methyl-5-nitroimidazol were synthesized primarily from 2-methyl-5-nitroimidazol, norfloxacin, ciprofloxacin, enoxacin via nucleophilic substitution and esterification. The antibacterial activity of the nine target compounds were tested.

RESULTSNine new compounds were synthesized (IIa-c and IIIa-f). The structure of the title compounds were identified by 1HNMR, MS as well as elementary analysis.

CONCLUSIONCompounds IIa, IIb and IIc showed antibacterial activity, and were worth further studying.

Animals ; Anti-Infective Agents ; chemical synthesis ; chemistry ; pharmacology ; Ciprofloxacin ; antagonists & inhibitors ; chemical synthesis ; pharmacology ; Combinatorial Chemistry Techniques ; methods ; Enoxacin ; antagonists & inhibitors ; chemical synthesis ; pharmacology ; Escherichia coli ; drug effects ; Female ; Mice ; Microbial Sensitivity Tests ; Molecular Structure ; Nitroimidazoles ; chemistry ; Norfloxacin ; antagonists & inhibitors ; chemical synthesis ; pharmacology

AIMTo analyze the response factors of different quinolone antibiotics detected by evaporative light-scattering detector (ELSD).

METHODSThe response factors of five different quinolones (enoxacin, levofloxacin, ciprofloxacin, lomefloxacin and gatifloxacin) detected by ELSD were determined by using a YMC-Pack ODS-AM cloumn (150 mm x 4.6 mm ID, 5 microns) as analytical column and 0.5% triethylamine (adjusting pH 2.5 with trifluoroacetic acid)-acetonitrile (48:12) as mobile phase at a flow rate of 0.6 mL.min-1, the temperature of the drift tube was set at 117 degrees C, and the flow of carrier gas at 3.0 L.min-1. Detector responses (A) and the amount of injection of each substance (m) were fitted to the logarithmic regression: log A = b log m + log a.

RESULTSThe linear regression equation obtained were: enoxacin: Y = 1.0799X + 2.7611, r2 = 0.9996; levofloxacin: Y = 1.0913X + 2.7235, r2 = 0.9997; ciprofloxacin: Y = 1.0828X + 2.7523, r2 = 0.9994; lomefloxacin: Y = 1.0891X + 2.7391, r2 = 0.9993; gatifloxacin: Y = 1.0878X + 2.7392, r2 = 0.9995. The differences between them were negligible.

CONCLUSIONDifferent quinolones can give the same responses with ELSD detection. So, the HPLC-ELSD methods can be applied to the determination of new substances by using another substance as reference.

Chromatography, High Pressure Liquid ; methods ; Ciprofloxacin ; analysis ; Enoxacin ; analysis ; Fluoroquinolones ; analysis ; Levofloxacin ; Light ; Linear Models ; Ofloxacin ; analysis ; Quinolones ; analysis

A preparation of water soluble components(EA) was made from carpophores of Elfvingia applanata(Pers.) Karst and its in vitro antibacterial activity on a number of bacterial species was examined by macrobroth dilution assay. Among 16 species of bacteria tested, the most potent antibacterial activity was observed against Staphylococcus epiderrnidis and Proteus vulgaris, of which MICs were 1.25 mg/ml. To investigate the antibacterial effects in combinations of EA with quinolone antibiotics, such as ciprofloxacin, enoxacin, lomefloxacin, norfloxacin, and ofloxacin, the fractional inhibitory concentrations(FICs) and the fractional inhibitory concentration indices(FICIs) for four bacterial strains were determined by macrobroth dilution checkerboard assay. Combinations of EA and quinolones exhibited either additive or indifferent effects of antibacterial activity in most instances. However, both synergistic and antagonistic effects were not observed in any cases.
Anti-Bacterial Agents ; Bacteria ; Ciprofloxacin ; Enoxacin ; Norfloxacin ; Ofloxacin ; Proteus vulgaris ; Quinolones* ; Staphylococcus

BACKGROUND: The photsensitizing effect of quinolones has been recognized since their introdulation as an antibacterial agents. Recently several new second eneration antibacterial agents of this pharmacological class have become available for therapy, and are gaining increasing impotance. OBJECTIVE: To reveal the phototoxic potentials of some new quinolones by photohemolysis test, estimation of fluorescenc spectra, and Candida albicans test. METHODS: Nalidixic acid and four second-generation quinolones(ciprofloxacin, enoxacini, norfloxacin, and ofloxacitid were examined by fluorescence spertra which measured t.he phototoxc potentials by photochemial instability, photohemolsis test for the phototoxic properties against cell membranes and Candida tlbicans test for phototoxic properties against DNA. RESULTS: All drugs showed a fluorescence spectra within 360 nm to 450 nm, and in the photohemolysis test, all studied drug except ofloxacin got above 5% hemolytic value, and all drugs showed clear zone. in Candida albicans test after 48hours. CONCLUSION: These results suggested that all tested drugs were photochemically unstable. According to the mechanisris of cellular phototoxicity, ciprofloxacin, enoxacin, and norfloxacin was phtototoxic to nucleus and cell membrane, whereas ofloxacin was phototoxic to nucleus only.
Anti-Bacterial Agents* ; Candida ; Candida albicans ; Cell Membrane ; Ciprofloxacin ; Dermatitis, Phototoxic ; DNA ; Enoxacin ; Fluorescence ; Nalidixic Acid ; Norfloxacin ; Ofloxacin ; Quinolones

The susceptibilities of 45 clinical isolates of bacteroidis fragilis to cefaclor, ciproflxacin and imipenem were determined by new method, E-test (AB Bidisk, Solna, Sweden) and were compared with those from conventional agar dilution method by using brain heart infusion, Mueller-Hinton and Wilk:..s Chalgren agar plates. And the susceptibility of 60 clinical isolates of bacteroides fragilis group (B. fragilis 45 strains, B. distasonis 6 strains, B. ovatus 5 strains, B. thetaiotaomicron 4 strains) to 5 quinolones (ciprofloxacin, enoxacin, norfloxacin, ofloxacin, pefloxacin) were determined by in vitro agar dilution method. Compared with agar dilution MICs for B. fragilis 45 strains, 90.3% of E-test MICs were within +/- 1 dilution of the agar dilutions, and 98.4% were within 2 dilutions. And there were little effect of different medium bases to determine MICs except Mueller-Hinton agar. On Mueller-Hinton agar, B. fragilis showed have or no growth activity. In vitro susceptibility of B. fragilis group to quinolones, most of the test strains showed resistant patterns to quinolones except ofloxacin and there was little difference of susceptibility patterns between species of B. fragilis group.
Agar* ; Bacteroides fragilis* ; Bacteroides* ; Brain ; Cefaclor ; Enoxacin ; Heart ; Imipenem ; Norfloxacin ; Ofloxacin ; Quinolones

No abstract available.
Chlamydia trachomatis* ; Chlamydia* ; Doxycycline* ; Enoxacin* ; Erythromycin* ; Pipemidic Acid*

No abstract available.
Chlamydia trachomatis* ; Chlamydia* ; Doxycycline* ; Enoxacin* ; Erythromycin* ; Pipemidic Acid*

No abstract available.
Ciprofloxacin* ; Enoxacin* ; Humans* ; Metabolism* ; Theophylline*

One hundred and fifty strains of Gram negative bacilli isolated from urine of patients with urological disease were tested for resistance to antimicrobial drugs including quinolones. Escherichia coli (61 strains) was most frequently isolated, and followed by Klebsiella spp. (36), Pseudomonas aeruginosa (12). and Proteus spp. (6) in the decreasing order. New quinolone carboxylic acid compounds such as enoxacin (Ex). norfloxacin (Nf), ciprofloxacin (Cp), pefloxacin (Pf), and ofloxacin (Of) showed very high antimicrobial activities against the majority of organisms tested except P.aerogi. nose. In P.aeruginosa all strains were resistant to nalidixic acid, and 25-33% to Ex. Nf. Cp, Pf, and Or. The majority of strains tested were found to be resistant to beta-lactam antibiotics except moxalactam (Mr). aminoelycoside drugs except amikacin (Ak), and other drugs tested such as chloramphgnicol, tetracycline. rifampin and etc.. but in P.aeruginosa, 33-58% were resistant to Mx and Ak. Organisms multiplyine resistance to 5 or more druge were noted in almost all isolates tested The stain numbers of multiplying resistance to 5 or more drugs were 51 strains (83.6%) of E. Coli 24 strains (66.7%) of Klebsielle spp., 10 strains (83.3%) of P.aeruginosa, and 5 strains (83.3%) of Prorteus spp.
Amikacin ; Anti-Bacterial Agents ; Ciprofloxacin ; Drug Resistance, Microbial* ; Enoxacin ; Escherichia coli ; Humans ; Klebsiella ; Moxalactam ; Nalidixic Acid ; Norfloxacin ; Nose ; Ofloxacin ; Pefloxacin ; Proteus ; Pseudomonas aeruginosa ; Quinolones ; Rifampin ; Tetracycline ; Urologic Diseases