Biomedical Engineering Reference
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Kadry AA, Fouda SI, Shibl AM, Abu El-Asrar AA (2009) Impact of slime dispersants and anti-
adhesives on in vitro biofilm formation of Staphylococcus epidermidis on intraocular lenses
and on antibiotic activities. J Antimicrob Chemother 63:480-484
Kaplan JB (2010) Biofilm dispersal: mechanisms, clinical implications, and potential therapeutic
uses. J Dent Res 89:205-218
Kaplan JB, Ragunath C, Velliyagounder K, Fine DH, Ramasubbu N (2004) Enzymatic detachment
of Staphylococcus epidermidis biofilms. Antimicrob Agents Chemother 48:2633-2636
Karlsson A, Saravia-Otten P, Tegmark K, Morfeldt E, Arvidson S (2001) Decreased amounts of
cell wall-associated protein A and fibronectin-binding proteins in Staphylococcus aureus sarA
mutants due to up-regulation of extracellular proteases. Infect Immun 69:4742-4748
Kelly D, Mcauliffe O, Ross RP, Coffey A (2012) Prevention of Staphylococcus aureus biofilm
formation and reduction in established biofilm density using a combination of phage K and
modified derivatives. Lett Appl Microbiol 54:286-291
Kiedrowski MR, Horswill AR (2011) New approaches for treating Staphylococcal biofilm infec-
tions. Ann N Y Acad Sci 1241:104-121
Kiedrowski MR, Kavanaugh JS, Malone CL, Mootz JM, Voyich JM, Smeltzer MS, Bayles KW,
Horswill AR (2011) Nuclease modulates biofilm formation in community-associated methi-
cillin-resistant Staphylococcus aureus. PLoS One 6:e26714
Kokai-Kun JF, Chanturiya T, Mond JJ (2009) Lysostaphin eradicates established Staphylococcus
aureus biofilms in jugular vein catheterized mice. J Antimicrob Chemother 64:94-100
Kolar SL, Ibarra JA, Rivera FE, Mootz JM, Davenport JE, Stevens SM, Horswill AR, Shaw LN
(2013) Extracellular proteases are key mediators of Staphylococcus aureus virulence via the
global modulation of virulence-determinant stability. Microbiologyopen 2:18-34
Kolodkin-Gal I, Romero D, Cao S, Clardy J, Kolter R, Losick R (2010) D-amino acids trigger
biofilm disassembly. Science 328:627-629
Landry RM, An D, Hupp JT, Singh PK, Parsek MR (2006) Mucin-Pseudomonas aeruginosa
interactions promote biofilm formation and antibiotic resistance. Mol Microbiol 59:142-151
Lauderdale KJ, Boles BR, Cheung AL, Horswill AR (2009) Interconnections between Sigma B,
agr, and proteolytic activity in Staphylococcus aureus biofilm maturation. Infect Immun
77:1623-1635
Lauderdale KJ, Malone CL, Boles BR, Morcuende J, Horswill AR (2010) Biofilm dispersal of
community-associated methicillin-resistant Staphylococcus aureus on orthopedic implant
material. J Orthop Res 28:55-61
Laurent TC, Fraser JR (1992) Hyaluronan. FASEB J 6:2397-2404
Lee JH, Park JH, Cho HS, Joo SW, Cho MH, Lee J (2013) Anti-biofilm activities of quercetin and
tannic acid against Staphylococcus aureus. Biofouling 29:491-499
Lew DP, Waldvogel FA (2004) Osteomyelitis. Lancet 364:369-379
Mack D, Fischer W, Krokotsch A, Leopold K, Hartmann R, Egge H, Laufs R (1996) The
intercellular adhesin involved in biofilm accumulation of Staphylococcus epidermidis is a
linear beta-1,6-linked glucosaminoglycan: purification and structural analysis. J Bacteriol
178:175-183
Mann EE, Rice KC, Boles BR, Endres JL, Ranjit D, Chandramohan L, Tsang LH, Smeltzer MS,
Horswill AR, Bayles KW (2009) Modulation of eDNA release and degradation affects
Staphylococcus aureus biofilm maturation. PLoS One 4:e5822
Marti M, Trotonda MP, Tormo-Mas MA, Vergara-Irigaray M, Cheung AL, Lasa I, Penades JR
(2010) Extracellular proteases inhibit protein-dependent biofilm formation in Staphylococcus
aureus. Microbes Infect 12:55-64
Mcaleese FM, Walsh EJ, Sieprawska M, Potempa J, Foster TJ (2001) Loss of clumping factor B
fibrinogen binding activity by Staphylococcus aureus involves cessation of transcription,
shedding and cleavage by metalloprotease. J Biol Chem 276:29969-29978
Mcgavin MJ, Zahradka C, Rice K, Scott JE (1997) Modification of the Staphylococcus aureus
fibronectin binding phenotype by V8 protease. Infect Immun 65:2621-2628
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