1 于润江. 呼吸道的生物被膜病. 中华内科杂志, 1993, 32 (5):291
2 Costerton JW, Lewandowski Z, Caldwell DE, et al. Microbial biofilm. Annu Rev microbiol, 1995,49:711
3 Gilbert P, Allison DG, Evans DJ, et al. Growth rate control of adherent bacterial populations.Applied and En-viromental Microbiology, 1989,5:1308
4 Evans DJ, Allison DG, Brown MRW, et al. Suscepti-bility of Pseudomonas aeruginosa and Escherichia colibiofilms towards ciprofloxacin:effect of specific growth rate. Journal of Antimicrobial Chemotherapy, 1991,27:177
5 Selan L, Berlutti F, Passariello C, et al. Proteoly tieenzymes:a new treatment strategy for prosthetic infec-tions?Antimicrobial Agents and Chemotherapy, 1993, 12: 2618
6 Barbara A Dix, Paul S, Cohen, et al. Radiochemical method for evaluating the effect of antibiotics on Es-cherichia colibiofilms. Antimicrobial Agents and Chemotherapy, 1988,5:770
7 Ashby MJ, Neale JE, Knott SJ, et al. Effect of an-tibiotics on non-growing planktonic cells and biofilms of Escherichia coli. Journal of Antimicrobial Chemotherapy, 1994, 33(3):443
8 Barbara La TP, Doris Taylor, Barbara A Dix, et al. Method of evaluating effects of antibiotics on bacterial biofilm. Antimicrobial Agents and Chemotherapy, 1987, 10:1502
9 Yasuda H, Ajiki Y, Aoyama J, et al. Interaction be-tween human polymor phonuclear leucocyte and bacteria released from in-vitro bacterial biofilm. SMed Microbiol, 1994, 41:359
10 Hoyle BD, Alcantara J, Costerton JWP. Aeruginosa biofilm as a diffusion barrier to Piperacillin.Antimicrobial Agents and Chemotherapy, 1992,9:2054
11 Andreas FW, Adrian W, Reno F, et al. Killing of nongrowing and adherent Escherichia coli determines drug efficacy in device-related infections. Antimicrobi al A-gents and Chemocherapy, 1991,4:471
12 Buret A, Ward KH, Olson ME, et al. An in vivo model to study the pathobiology of infectious biofilms on biomaterial surfaces. Journal of Biomedical Materials Re-search, 1991,25:865
13 Sottile FE, Marrie TJ, Prough DS, et al. Nosoco-mial pulmonary infection:possible etiologic significance of bacterial adhesion to endotracheal tubes.Crit Care Med, 1986, 14(4):265
14 Hachler H, Vogt T, Binswanger U, et al. Cen-trifugation of 50ml of peritoneal fluid in sufficient for mi-crobiological examination in continuous ambulatory peri-toneal dialysis (CAPD) patients with peritonitis.Infec-tion, 1986, 14(3):102
15 Tchekmed yian NS, Newman K, Moody MR, et al. Special studies of the Hichman catheter of a patient with recurrent bacteremia and candidemia. Am J Med Sci, 1986,291(6):419
16 Nickel JC, Heaton J, Morales A, et al. Bacterial biofilm persistent penilep rosthesis-associated infection. JUrol, 1986,135(3):586 17 Nickel JC, Wright JB, Ruseska I, et al. Antibiotic resistance of Pseudomonas aeruginosa colonizing aurinary catheter in vitro. Eur JClin Microbiol, 1985,4(2):213
18 Marrie TJ, Costerton JW. Scanning and transmis-sion electron microscopy of in situ bacterial colonization of intravenous and intraarterial catheter. JClin Microbiol, 1984,19(5):687
19 Passerini I, Lam K, Costerton JW, et al. Biofilms on indwelling vascular catheters.Crit Care Med, 1992,20 (5):665
20 Marrie TJ, Costerton JW. A scanning and trans-mission electron microsco picstudy of the surfaces of in-trauterine contraceptive devices. Am J Obstet Gynecol, 1983,146(4):384
21 Marrie TJ, Nelligan J, Costerton JW, et al. A scanning and transmission electron microsco pic study of an infected endocardial pacemaker lead. Circulation, 1982,66 (6):1339
22 Gristina AG, Costerton JW. Baterial adherence to biomaterials and tissue. The significance of its role in clinical sepsis. JBone Joint Surg. Am, 1985, 67(2):264
23 Nickel JC, Emtage J, Costerton JW, et al. Ultra-structural microbial ecology of infection-induced urinary stones.J Urol, 1985, 133(4):622
24 Hoyle BD, Williams LJ, Costerton JW. Production of mucoid exopolysaccharide during development of Pseu-domonas aeruginosa biofilms. Infect Immun, 1993,61(2): 777
25 Das gupta MK, Ward K, Noble PA, et al. Develop-ment of bacterial biofilms on silastic catheter materials in peritoneal dialysis fluid. Am J Kidney Dis, 1994, 23(5): 709
26 Reid G, Khoury AE, Preston CA, et al. Influence of dextrose dialysis solutions on adhesion of Staphy lococcus aureus and Pseudomonas aeruginosa to three catheter sur-faces.Am J Nephrol, 1994,14(1):37
27 Vorachit M, Lam K, Ja yanetra P, et al. Resistance of Pseudomonas pseudomallei growing as a biofilm on silastic discs to ceftazidime and co-trimoxazole. Antimi-crob Agents Chemother, 1993, 37(9):2000
28 Anwar H, Strap JL, Costerton JW. Growth char-acteristics and exp ression of iron regulated outer mem-brane proteins of chemostat-grown biofilm cells of Pseudomonas aeruginosa. Can J Microbiol, 1991,37:737
29 Costerton JW, Ellis B, Lam K, et al. Mechanism of electrical enhancement of efficacy of antibiotics in killing biofilm bacteria. Antimicrob Agents Chemother, 1994,38(12):2803
30 Blenkinsopp SA, Khoury AE, Costerton JW. Elec-trical enhancement of biocide efficacy against Pseu-domonas aeruginosa biofilms.Appl Environ Microbiol, 1992,58(11):3770
31 Sung JY, Leung JW, Shaffer EA, et al. Bacterial biofilm, brown pigment stone and blockage of biliary stents.J Gastroenterol Hepatol, 1993, 8(1):28
32 Passariello C, Berlutti F, Selan L, et al. A rapiid staining procedure to demonstrate glycocalyx production and bacterial biofilms.Microbiologica, 1994, 17:225
33 James GA, Korber DR, Caldwell DE, et al. Digitalima geanalysis of growth starvation responses of a surface colonizing Acinetobacter sp. J Bacteriol, 1995, 177(4): 907
34 Toyoda M, Yomota C, Ito Y, et al. High perfor-mance liquid chromato graphic method for the determina-tion of sodium al ginate in foods. J Food Hygienic Society of Japan, 1985,26:189
35 Ichimiya T, Yamasaki T, Nasu M. In vitro of an-timicrobial agents on Pseudomonas aeruginosa biofilm formation. J Antimicrob Chemother, 1994,34(3):331 |
