Biomedical Engineering Reference
In-Depth Information
McLeod, B. R., Fortun, S., Costerton, J. W., and Stewart, P. S. (1999).
Enhanced bacterial biofilm control using electromagnetic fields in combi-
nation with antibiotics.
Methods in Enzymology,
310
:656-670.
Meers, P., Neville, M., Malinin, V., Scotto, A. W., Sardaryan, G., Kuru-
munda, R., Mackinson, C., James, G., Fisher, S., and Perkins, W. R. (2008).
Biofilm penetration, triggered release and in vivo activity of inhaled liposo-
mal amikacin in chronic
Pseudomonas aeruginosa
lung infections.
Journal
of Antimicrobial Chemotherapy,
61
(4):859-868.
Mittelman, M. W. (1996). Adhesion to biomaterials. In
Bacterial Adhesion:
Molecular and Ecological Diversity
, ed. M. Fletcher. Wiley-Liss, New York,
Inc., pp. 89-127.
Moller, S., Sternberg, C., Andersen, J. B., Christensen, B. B., Ramos, J. L.,
Givskov, M., and Molin, S. (1998). In situ gene expression in mixed-culture
biofilms: evidence of metabolic interactions between community members.
Applied and Environmental Microbiology,
64
(2):721-732.
Moran, G. P., Sanglard, D., Donnelly, S. M., Shanley, D. B., Sullivan, D. J.,
and Coleman, D. C. (1998). Identification and expression of multidrug
transporters responsible for fluconazole resistance in
Candida dubliniensis
.
Antimicrobial Agents and Chemotherapy,
42
(7):1819-1830.
Murga, R., Forster, T. S., Brown, E., Pruckler, J. M., Fields, B. S., and Donlan,
R. M. (2001). The role of biofilms in the survival of
Legionella pneumophila
in a model potable-water system.
Microbiology,
147
(11):3121-3126.
National Institutes of Health. April 21, 1999. SBIR/STTR Study and Control
of Microbial Biofilms. Access Date: March 27, 2009. http://grants.nih.gov/
grants/guide/pa-files/PA-99-084.html.
Nemoto, K., Hirota, K., Ono, T., Murakami, K., Nagao, D., and Miyake, Y.
(2000). Effect of varidase (streptokinase) on biofilm formed by
Staphylococ-
cus aureus
.
Chemotherapy,
46
(2):111-115.
Nett, J. and Andes, D. (2008). Review of techniques for diagnosis of catheter-
related
Candida
biofilm infections.
Current Fungal Infection Reports,
2
(4):237-243.
O'Toole, G. A. and Kolter, R. (1998). Flagellar and twitching motility are nec-
essary for
Pseudomonas aeruginosa
biofilm development.
Molecular Micro-
biology,
30
(2):295-304.
O'Toole, G. A., Gibbs, K. A., Hager, P. W., Phibbs, P. V. Jr., and Kolter,
R. (2000a). The global carbon metabolism regulator Crc is a component of
a signal transduction pathway required for biofilm development by
Pseu-
domonas aeruginosa
.
Journal of Bacteriology,
182
(2):425-431.
Search WWH ::
Custom Search