BibTex RIS Kaynak Göster

Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI

Yıl 2008, Cilt: 36 Sayı: 1, 1 - 8, 01.01.2008

Öz

In this study; the foley catheters were modified by plasma polymerization technique and coated with alginate gels. Thismodification processes were applied to prevent bacterial adhesion onto the foley catheter surfaces. Here the mosteffective parameters were evaluated as the plasma polymerization system power and plasma exposure time for theeffective catheter surface modification. The obtained results showed that the plasma power affected hidrophilicity ofthe surface and wettability of the foley catheters was increased. The plasma exposure time increased the amount ofEDA deposition over the catheter surfaces and then caused more hydrophilicity for the foley catheter surfaces also.In this study, the bacterial strain ofE. Coli had a hydrophobic nature and therefore the increase in hydrophilicity ofthe surface of foley catheters decreased the adhesion risk for theE. Coli onto the catheter surfaces. As the numericalvalues of the obtained data; while the amount of bacterial colony formation unit was at 108 level initially, it wasdecreased down to 104-103level by changing the surface hydrophilicities as expected

Kaynakça

  • 1. Riedl C.R., Witkowski M., Plas E., Pflueger H., Heparin coating reduces encrustation of ureteral stents: a preliminary report, International Journal of Antimicrobial Agents, 19 (2002) 507.
  • 2. Schierholz J.M., Yücel N., Rump A.F.E., Beuth J, Pulverer G., Antiinfective and encrustation-inhibiting materials/myth and facts, International Journal of Antimicrobial Agents, 19 (2002) 511.
  • 3. Reid G., Davidson R., Denstedt D. XPS, SEM and EDX analysis of conditioning lm deposition onto ureteral stents, Surf Interface Anal, 21 (1994) 58.
  • 5. Santin M., Motta A., Denyer S.P., Cannas M., Effect of the urine conditioning film on ureteral stent encrustation and characterization of its protein composition, Biomaterials, 20 (1999) 1245.
  • 6. Elves AWS, Feneley RCL. Long-term urethral catheterization and the urine biomaterial interface, Br J Urol, 80 (1997) 1.
  • 7. Schierholz JM, Beuth J. Sophisticated medical devices as local drug delivery systems, Med Dev Tech, 11(2) (2000) 12.
  • 8. Schierholz JM, Beuth J. Implant infections haven for opportunistic bacteria, J Hosp Inf, 49 ( 2001) 87.
  • 9. DiTizio V., Ferguson G.W., Mittelman M.W., Khoury A.E., Bruce A.W., DiCosmo F., A liposomal hydrogel for the prevention of bacterial adhesion to catheters, Biomaterials, 19 (1998) 1877.
  • 10. Park J.H., Cho Y.W., Kwon I.C., Jeong S.Y., Bae Y.H., Assessment of PEO/PTMO multi block copolymer segmented polyurethane blends as coating materials for urinary catheters: in vitro bacterial adhesion and encrustation behavior, Biomaterials, 23 (2002) 399.
  • 11. Kim C.K. and Lee E. J. Int. J. Pharm, 79 (1992) 11.
  • 12. Downs E.C., Robertson N.E., Riss, T.L. and Plunkett M.L., J. Cell Phys., 152 (1992) 422.
  • 13. Edelman E.R., Mathiowitz E., Langer R. and Klagsbrun M. Biomaterials, 12 (1991) 619.
  • 14. Mumper R.J., Hoffman A.S., Puolakkainen P.A., Bouchard L.S. and Gombotz W.R., J. Control. Release, 30 (1994) 241.
  • 15. Sandford P.A. and Hutchings G.P. In: Yalpani, M. (ed.), Industrial Polysaccharides, Genetic Engineering, Structure/Property Relations and Applications, (1987) 363.
  • 16. Tunney M., David S., Jones, Sean P. Gorman. Methacrylate polymers and copolymers as urinary tract biomaterials: resistance to encrustation and microbial adhesion, International Journal of Pharmaceutics, 151 (1997) 121.
  • 17. Kiremitci-Gumusderelioglu M., Pesmen A. Microbial adhesion to ionogenic PHEMA, PU and PP implants, Biomaterials,17 (1996) 443.
  • 18. Hubbell J.A., Heuberger M., Voros J., Textor M., Biomaterial surfaces: Properties and characterization , Course Textbook, ETH Zurich Department of Materials, (2003).
Yıl 2008, Cilt: 36 Sayı: 1, 1 - 8, 01.01.2008

Öz

Kaynakça

  • 1. Riedl C.R., Witkowski M., Plas E., Pflueger H., Heparin coating reduces encrustation of ureteral stents: a preliminary report, International Journal of Antimicrobial Agents, 19 (2002) 507.
  • 2. Schierholz J.M., Yücel N., Rump A.F.E., Beuth J, Pulverer G., Antiinfective and encrustation-inhibiting materials/myth and facts, International Journal of Antimicrobial Agents, 19 (2002) 511.
  • 3. Reid G., Davidson R., Denstedt D. XPS, SEM and EDX analysis of conditioning lm deposition onto ureteral stents, Surf Interface Anal, 21 (1994) 58.
  • 5. Santin M., Motta A., Denyer S.P., Cannas M., Effect of the urine conditioning film on ureteral stent encrustation and characterization of its protein composition, Biomaterials, 20 (1999) 1245.
  • 6. Elves AWS, Feneley RCL. Long-term urethral catheterization and the urine biomaterial interface, Br J Urol, 80 (1997) 1.
  • 7. Schierholz JM, Beuth J. Sophisticated medical devices as local drug delivery systems, Med Dev Tech, 11(2) (2000) 12.
  • 8. Schierholz JM, Beuth J. Implant infections haven for opportunistic bacteria, J Hosp Inf, 49 ( 2001) 87.
  • 9. DiTizio V., Ferguson G.W., Mittelman M.W., Khoury A.E., Bruce A.W., DiCosmo F., A liposomal hydrogel for the prevention of bacterial adhesion to catheters, Biomaterials, 19 (1998) 1877.
  • 10. Park J.H., Cho Y.W., Kwon I.C., Jeong S.Y., Bae Y.H., Assessment of PEO/PTMO multi block copolymer segmented polyurethane blends as coating materials for urinary catheters: in vitro bacterial adhesion and encrustation behavior, Biomaterials, 23 (2002) 399.
  • 11. Kim C.K. and Lee E. J. Int. J. Pharm, 79 (1992) 11.
  • 12. Downs E.C., Robertson N.E., Riss, T.L. and Plunkett M.L., J. Cell Phys., 152 (1992) 422.
  • 13. Edelman E.R., Mathiowitz E., Langer R. and Klagsbrun M. Biomaterials, 12 (1991) 619.
  • 14. Mumper R.J., Hoffman A.S., Puolakkainen P.A., Bouchard L.S. and Gombotz W.R., J. Control. Release, 30 (1994) 241.
  • 15. Sandford P.A. and Hutchings G.P. In: Yalpani, M. (ed.), Industrial Polysaccharides, Genetic Engineering, Structure/Property Relations and Applications, (1987) 363.
  • 16. Tunney M., David S., Jones, Sean P. Gorman. Methacrylate polymers and copolymers as urinary tract biomaterials: resistance to encrustation and microbial adhesion, International Journal of Pharmaceutics, 151 (1997) 121.
  • 17. Kiremitci-Gumusderelioglu M., Pesmen A. Microbial adhesion to ionogenic PHEMA, PU and PP implants, Biomaterials,17 (1996) 443.
  • 18. Hubbell J.A., Heuberger M., Voros J., Textor M., Biomaterial surfaces: Properties and characterization , Course Textbook, ETH Zurich Department of Materials, (2003).
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Research Article
Yazarlar

Gökhan Erdoğan Bu kişi benim

Emir Baki Denkbaş Bu kişi benim

Eylem Öztürk Bu kişi benim

Canan Ağalar Bu kişi benim

Muzeffer Eroğlu Bu kişi benim

Pelin Atilla Bu kişi benim

Yayımlanma Tarihi 1 Ocak 2008
Yayımlandığı Sayı Yıl 2008 Cilt: 36 Sayı: 1

Kaynak Göster

APA Erdoğan, G., Denkbaş, E. B., Öztürk, E., Ağalar, C., vd. (2008). Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI. Hacettepe Journal of Biology and Chemistry, 36(1), 1-8.
AMA Erdoğan G, Denkbaş EB, Öztürk E, Ağalar C, Eroğlu M, Atilla P. Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI. HJBC. Ocak 2008;36(1):1-8.
Chicago Erdoğan, Gökhan, Emir Baki Denkbaş, Eylem Öztürk, Canan Ağalar, Muzeffer Eroğlu, ve Pelin Atilla. “Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI”. Hacettepe Journal of Biology and Chemistry 36, sy. 1 (Ocak 2008): 1-8.
EndNote Erdoğan G, Denkbaş EB, Öztürk E, Ağalar C, Eroğlu M, Atilla P (01 Ocak 2008) Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI. Hacettepe Journal of Biology and Chemistry 36 1 1–8.
IEEE G. Erdoğan, E. B. Denkbaş, E. Öztürk, C. Ağalar, M. Eroğlu, ve P. Atilla, “Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI”, HJBC, c. 36, sy. 1, ss. 1–8, 2008.
ISNAD Erdoğan, Gökhan vd. “Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI”. Hacettepe Journal of Biology and Chemistry 36/1 (Ocak 2008), 1-8.
JAMA Erdoğan G, Denkbaş EB, Öztürk E, Ağalar C, Eroğlu M, Atilla P. Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI. HJBC. 2008;36:1–8.
MLA Erdoğan, Gökhan vd. “Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI”. Hacettepe Journal of Biology and Chemistry, c. 36, sy. 1, 2008, ss. 1-8.
Vancouver Erdoğan G, Denkbaş EB, Öztürk E, Ağalar C, Eroğlu M, Atilla P. Plasma Modified Foley Catheters Against to Catheter Associated Urinary Tract Infection CAUTI. HJBC. 2008;36(1):1-8.

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