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The Evaluation of Antibacterial Activity of Fabrics Impregnated with Dimethyltetradecyl (3-(Trimethoxysilyl) Propyl) Ammonium Chloride

Year 2008, Volume: 67 Issue: 2, 115 - 122, 07.11.2010

Abstract

The antibacterial materials such as fabrics, cloths are became important to avoid cross infection by pathogenic microorganisms, especially bacteria such as Staphylococcus aureus, Escherichia coli and Klebsiella pneumoniae, to control the infestation by microbes, and to arrest metabolism in microbes in order to reduce the formation odour. Textiles for medical and hygienic use have become important areas in the textile industry. Therefore, to reduce/prevent infections, various antibacterial compounds have been used for all types of textiles. The solutions of disinfectant used are generally active in vitro, but, it is also necessary to know the effectiveness of disinfecting cloths in conditions of use. In the current study, it was aimed to determine the antibacterial activity of fabrics functionalized with dimethlytetradecyl (3-(trimethoxysilyl) ammonium chloride compound against Staphylococcus aureus, Escherichia coli and Klebsiella pneumoniae bacteria, and also after 5, 10 and 20 wash cycles against Staphylococcus aureus. The results of the present study showed that the most susceptible bacterium was S. aureus in all standard test methods for unwashed fabrics, antibacterial activity was continued by decreasing even after washing cycles.

References

  • AATCC Test Method 100-2004. (2005). Antibacterial finishes on textile materials: Assessment of. AATCC Technical Manual, American Association of Textile Chemists and Colorists, Research Triangle Park, NC
  • AATCC Test Method 147-2004. (2005). Anti- bacterial activity assessment of textile materials: Parallel streak method. AATCC Technical Manual, American Association of Textile Chemists and Colorists, Research Triangle Park, NC.
  • Abel, T., Cohen J. I., Engel, R., Filshtinskaya, M., Melkonian, Preparation and investigation of antibacterial carbohydrate-based Research, 337, 2495-2499. K. (2002). surfaces. Carbohydrate Aft Corporation (2005). Microgenix Air Purification, http://www.aftcorp.net/upload/biogreen_3000.pd f, (18 February 2008). 3000TM, Birbir, M. (2003). Tekstil ürünlerindeki mikroorganizmalar. Örme Dünyası, Mayıs- Haziran-Temmuz: 74-76.
  • Borkow, G. and Gabbay, J. (2004). Putting copper into action: copper-impregnated products with potent biocidal activities. The FASEB Journal, 18: 1728-1730.
  • Cen, L., Neoh, K.G., Kang, E.T. (2004). Antibacterial activity of cloth functionalized with Nalkylated Periodicals, Inc. Journal of Biomedial Materials Research, 71(A): 70–80. Wiley
  • EN ISO 20645:2004. (2004). Determination of antibacterial activity-agar diffusion plate test. Technical Committee CEN/TC 248.
  • Engley, F. B. (1958) Persistence and resistance of Staphylococcus. Paper presented at 86th Annual Meeting, American Public Health Association, St. Louis, Missouri, October 27-31.
  • Goldsmith, M. T., Latlief, M. A., Friedl, J. L., and Stuart, L. S. (1954). Adsorption of available chlorine and quaternary by cotton and wool fabrics from disinfecting solutions. Journal of Applied and Microbiology, 2(6): 360–364.
  • Gouda, M. (2006). Enhancing flame-resistance and antibacterial properties of cotton fabric. Journal of Industrial Textiles, 36(2): 167–177.
  • Jakimiak B, Röhm-Rodowald E, Staniszewska M, Cieślak M, Malinowska G, Kaleta A. (2006). Microbiological assessment of efficiency of antibacterial Państwowego Zakładu Higieny, 57(2):177-84.
  • Jantas, R. and Górna, K. (2006). Antibacterial finishing of cotton fabrics. Fibres & Textiles in Eastern Europe, 14(1): 55.
  • Lashen, E. S. (1971). New method for evaluating antibacterial activity directly on fabric. Applied and Environmental Microbiology, 21: 771-773.
  • Lin, J., Qiu, S., Lewis, K., Klibanov, A.M. (2003). Mechanism of bactericidal and activities of textiles covalently modified with fungicidal alkylated polyethylenimine. Biotechnology and Bioengineering, 83(2): 168–172.
  • McNeil, E., Greenstein, M., Stuart, L. S., Goldsmith, M. T. (1960). Some problems involved in use of quaternary ammonium compounds as fabric disinfectants. Journal of Applied Microbiology, 8(3): 156–159. the
  • Quinn, H. (1962). A method for the determination of the antimicrobial properties of treated fabrics. Journal of Applied Microbiology, 10:74-78.
  • Ramachandran, T., Rajendrakumar, K., Rajendran, R. (2004). Antimicrobial textiles-An Overview. Internet Explorer (India) Journal-Textile, 84 (2): 42—47.
  • Renaud, F. N. R., Dore, J. and Freney, H. J. (2006). Evaluation of antibacterial properties of a textile product with antimicrobial finish in a hospital environment. Journal of Industrial Textiles, 36(1): 89-94.
  • Ricci, G., Patrizi, A., Bendandi, B., Menna, G., Varotti, E., Masi, M. (2004). Therapeutics clinical effectiveness of a silk fabric in the treatment of atopic dermatitis. British Journal of Dermatology, 150: 127–131.
  • Seshadri D. T. and Bhat, N. V. (2005). Synthesis and properties of cotton fabrics modified with polypyrrole. Sen'i Gakkaishi, 61(4): 103–108.
Year 2008, Volume: 67 Issue: 2, 115 - 122, 07.11.2010

Abstract

References

  • AATCC Test Method 100-2004. (2005). Antibacterial finishes on textile materials: Assessment of. AATCC Technical Manual, American Association of Textile Chemists and Colorists, Research Triangle Park, NC
  • AATCC Test Method 147-2004. (2005). Anti- bacterial activity assessment of textile materials: Parallel streak method. AATCC Technical Manual, American Association of Textile Chemists and Colorists, Research Triangle Park, NC.
  • Abel, T., Cohen J. I., Engel, R., Filshtinskaya, M., Melkonian, Preparation and investigation of antibacterial carbohydrate-based Research, 337, 2495-2499. K. (2002). surfaces. Carbohydrate Aft Corporation (2005). Microgenix Air Purification, http://www.aftcorp.net/upload/biogreen_3000.pd f, (18 February 2008). 3000TM, Birbir, M. (2003). Tekstil ürünlerindeki mikroorganizmalar. Örme Dünyası, Mayıs- Haziran-Temmuz: 74-76.
  • Borkow, G. and Gabbay, J. (2004). Putting copper into action: copper-impregnated products with potent biocidal activities. The FASEB Journal, 18: 1728-1730.
  • Cen, L., Neoh, K.G., Kang, E.T. (2004). Antibacterial activity of cloth functionalized with Nalkylated Periodicals, Inc. Journal of Biomedial Materials Research, 71(A): 70–80. Wiley
  • EN ISO 20645:2004. (2004). Determination of antibacterial activity-agar diffusion plate test. Technical Committee CEN/TC 248.
  • Engley, F. B. (1958) Persistence and resistance of Staphylococcus. Paper presented at 86th Annual Meeting, American Public Health Association, St. Louis, Missouri, October 27-31.
  • Goldsmith, M. T., Latlief, M. A., Friedl, J. L., and Stuart, L. S. (1954). Adsorption of available chlorine and quaternary by cotton and wool fabrics from disinfecting solutions. Journal of Applied and Microbiology, 2(6): 360–364.
  • Gouda, M. (2006). Enhancing flame-resistance and antibacterial properties of cotton fabric. Journal of Industrial Textiles, 36(2): 167–177.
  • Jakimiak B, Röhm-Rodowald E, Staniszewska M, Cieślak M, Malinowska G, Kaleta A. (2006). Microbiological assessment of efficiency of antibacterial Państwowego Zakładu Higieny, 57(2):177-84.
  • Jantas, R. and Górna, K. (2006). Antibacterial finishing of cotton fabrics. Fibres & Textiles in Eastern Europe, 14(1): 55.
  • Lashen, E. S. (1971). New method for evaluating antibacterial activity directly on fabric. Applied and Environmental Microbiology, 21: 771-773.
  • Lin, J., Qiu, S., Lewis, K., Klibanov, A.M. (2003). Mechanism of bactericidal and activities of textiles covalently modified with fungicidal alkylated polyethylenimine. Biotechnology and Bioengineering, 83(2): 168–172.
  • McNeil, E., Greenstein, M., Stuart, L. S., Goldsmith, M. T. (1960). Some problems involved in use of quaternary ammonium compounds as fabric disinfectants. Journal of Applied Microbiology, 8(3): 156–159. the
  • Quinn, H. (1962). A method for the determination of the antimicrobial properties of treated fabrics. Journal of Applied Microbiology, 10:74-78.
  • Ramachandran, T., Rajendrakumar, K., Rajendran, R. (2004). Antimicrobial textiles-An Overview. Internet Explorer (India) Journal-Textile, 84 (2): 42—47.
  • Renaud, F. N. R., Dore, J. and Freney, H. J. (2006). Evaluation of antibacterial properties of a textile product with antimicrobial finish in a hospital environment. Journal of Industrial Textiles, 36(1): 89-94.
  • Ricci, G., Patrizi, A., Bendandi, B., Menna, G., Varotti, E., Masi, M. (2004). Therapeutics clinical effectiveness of a silk fabric in the treatment of atopic dermatitis. British Journal of Dermatology, 150: 127–131.
  • Seshadri D. T. and Bhat, N. V. (2005). Synthesis and properties of cotton fabrics modified with polypyrrole. Sen'i Gakkaishi, 61(4): 103–108.
There are 19 citations in total.

Details

Primary Language English
Journal Section Makaleler
Authors

N. O. Sanli Yurudu

Ayten Kimiran Erdem

Nazmiye Şanlı Yürüdü

Publication Date November 7, 2010
Submission Date November 7, 2010
Published in Issue Year 2008 Volume: 67 Issue: 2

Cite

AMA Sanli Yurudu NO, Kimiran Erdem A, Şanlı Yürüdü N. The Evaluation of Antibacterial Activity of Fabrics Impregnated with Dimethyltetradecyl (3-(Trimethoxysilyl) Propyl) Ammonium Chloride. Eur J Biol. November 2010;67(2):115-122.