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ASSESSMENT OF THE ANTIFUNGAL ACTIVITY OF LINING LEATHER TREATED WITH SILVER DOPED HYDROXYAPATITE

Year 2015, Volume: 25 Issue: 3, 280 - 285, 01.12.2015

Abstract

In this study, silver doped hydroxyapatite (Ag-HA) prepared by the microwave method was applied to leather in the finishing composition and its antifungal effect was investigated. The surface morphology of treated leathers was observed using Scanning Electron Microscopy (SEM). The Ag content in leather samples was identified with inductively coupled plasma optical emission spectrometry (ICP-OES). The antifungal activities of the control leather and the 0% – 5% Ag doped hydroxyapatite treated leather samples on the test fungi Aspergillus niger TEM and Trichoderma viride TEM were evaluated according to ASTM D 4576-08:2008 Standard Test Method for Mold Growth Resistance of Wet-Blue Leather. According to the results of the study, the antifungal performances of the treated leather were increased by increasing the concentration of Ag in hydroxyapatite. Moreover, the leather treated with Ag doped hydroxyapatite containing 2% or more of silver showed strong antifungal activity and it was decided that Ag doped hydroxyapatite could be used as an antifungal agent on leathers

References

  • 1. Leppchen K., Volker M., Meyer M., 2011, "Antifungal leather treatment with biological extracts. (Environment: Bio-fungicides)", Leather International, November 1.
  • 2. Würtz M., 2007, Combating Mould Effectively, Newsletter (3) May, PFI group, 12-13p.
  • 3. Würtz M., 2011, Efficacy Testing of Antimicrobial Finishes, Newsletter (02), PFI group, 15p.
  • 4. Gu H., Zhao C., Wang L., et al., 2009, A New Combined Antimicrobial Agent: Development and Application in Shoe Lining Leather. XXX Congress IULTCS, China, Beijing.
  • 5. Ciobanu C.S., Iconaru S.L., Chifiriuc M.C., et al., 2013, "Synthesis and Antimicrobial Activity of Silver-Doped Hydroxyapatite Nanoparticles", BioMed Research International, V(2013).
  • 6. Oh K-S., Kim K-J., Jeong Y-K., et al., 2003, "Effect of fabrication Processes on the antimicrobial properties of silver doped nano-sized Hap", Key Engineering Materials, 240-242, 583-586.
  • 7. Lv G., Li Y., Yang A., et al., 2006, "Preparation and antibacterial activity of silver ions-substituted hydroxyapatite/titania", Materials Science Forum, 510- 511, 78-81.
  • 8. Rameshbabu N., Sampath Kumar T.S., Prabhakar T.G., et al., 2006, "Antibacterial nanosized silver substituted hydroxyapatite: Synthesis and characterization", Journal of Biomedical Materials Research Part A, 80(3), 581-591.
  • 9. SLTC, 2008, "Official methods of analysis, society of leather technologists and chemists". SLTC, Northampton. 10. EPA, 2008, EPA 3050 method series (revision II, December 1996). USA.
  • 11. ASTM D 4576-08:2008, 2008, "Standard Test Method for Mold Growth Resistance of Wet-Blue (Leather)".
  • 12. Mo, A., Liao, J., Xu, W., et al., 2008, "Preparation and antibacterial effect of silver–hydroxyapatite/titania nanocomposite thin film on titanium", Applied Surface Science, 255: 435–438.
  • 13. Çavdar, A., 2009, Development of silver doped nano scaled bio antimicrobial materials for textile industry, Master of Science Thesis, Anadolu University Graduate School of Sciences, Advanced Technologies Program Nanotechnology, Eskişehir, 80p.
  • 14. Percival, S.L., Bowler, P.G. and Russell, D., 2005, "Bacterial resistance to silver in wound care", Journal of Hospital Infection, 60: 1-7.
  • 15. Shibata, T., Hamada, N., Kimoto, K., et al, 2007, "Antifungal Effect of Acrylic Resin Containing Apatite-coated TiO2 Photocatalyst", Dental Materials Journal, 26(3): 437-444.
  • 16. Doğan, A., Pekşen, C., 2005, Applications and Contribution of Metal Ion Doped Antimicrobial Materials in Preventing Hospital Infections, 4th National Congress of Sterilization Disinfection, 59-68.
  • 17. Gaidau, C., Petica, A., Dragomir, T., Iovu, H., Andronescu, C., 2011, "Ag and Ag/TiO2 nano-dispersed systems for treatment of leathers with strong antifungal properties", Journal of the American Leather Chemists Association,106:102-109.
  • 18. Lkhagvajav, N., Koizhaiganova, M., Yasa, I., Çelik, E., Sari, Ö., 2015, "Characterization and antimicrobial performance of nano silver coatings on leather materials", Brazilian Journal of Microbiology, 46(1): 41-48.
  • 19. Lu, Y., Chen, Y., Fan, H.J., Peng, B.Y., Shi, B., 2009, A Novel Nano-SiO2 Tannage for Making Chrome-Free Leather, International Union of Leather Technologists and Chemists Societies IULTCS XXX. Congress. Beijing, China.
  • 20. Kolmas, J., Groszyk, E., Kwiatkowska-Różycka, D., 2014, "Substituted Hydroxyapatites with Antibacterial Properties", BioMed Research International, 2014, 1-15.
  • 21. Iqbal, N., Abdul Kadir, M.R., Nik Malek, N.A.N., et al., 2012, "Rapid microwave assisted synthesis and characterization of nanosized silver-doped hydroxyapatite with antibacterial properties", Materials Letters, 89: 118-122.
  • 22. Ciobanu, C.S., Iconaru S.L., Coustumer, P.L., et al., 2012, "Antibacterial activity of silver-doped hydroxyapatite nanoparticles against gram-positive and gram-negative bacteria", Nanoscale Research Letters, 7: 324

GÜMÜŞ KATKILI HİDROKSİAPATİT İLE MUAMELE EDİLEN ASTARLIK DERİLERİN ANTİFUNGAL AKTİVİTESİNİN DEĞERLENDİRİLMESİ

Year 2015, Volume: 25 Issue: 3, 280 - 285, 01.12.2015

Abstract

Bu çalışmada, mikrodalga yöntemi ile hazırlanan gümüş katkılı hidroksiapatit (Ag-HA) finisaj kompozisyonu içinde deriye uygulanmış ve antifungal etkisi araştırılmıştır. Muamele edilen derilerin yüzey morfolojisi Taramalı Elektron Mikroskobu (SEM) kullanılarak gözlenmiştir. Deri örneklerindeki Ag miktarı İndüktif Eşleşmiş Plazma Optik Emisyon Spektrometresi (ICP-OES) ile tespit edilmiştir. Kontrol deri ve %0 -%5 Ag katkılı hidroksiapatit ile işlenmiş deri örneklerinin Aspergillus niger TEM ve Trichoderma viride TEM mantarlarına karşı antifungal aktiviteleri ASTM D 4576-08:2008 "Wet-blue Derilerin Mantar Gelişimine Karşı Direnci Standart Test Yöntemi"ne göre değerlendirilmiştir. Çalışma sonuçlarına göre, muamele edilen derilerin antifungal performansları hidroksiapatit içindeki Ag konsantrasyonunun artması ile artmıştır. Ayrıca, %2 veya daha fazla Ag içeren gümüş katkılı hidroksiapatit ile muamele edilen deriler daha güçlü bir antifungal aktivite göstermiş ve Ag katkılı hidroksiapatitin deri üzerine bir antifungal madde olarak kullanılabilirliği düşünülmüştür

References

  • 1. Leppchen K., Volker M., Meyer M., 2011, "Antifungal leather treatment with biological extracts. (Environment: Bio-fungicides)", Leather International, November 1.
  • 2. Würtz M., 2007, Combating Mould Effectively, Newsletter (3) May, PFI group, 12-13p.
  • 3. Würtz M., 2011, Efficacy Testing of Antimicrobial Finishes, Newsletter (02), PFI group, 15p.
  • 4. Gu H., Zhao C., Wang L., et al., 2009, A New Combined Antimicrobial Agent: Development and Application in Shoe Lining Leather. XXX Congress IULTCS, China, Beijing.
  • 5. Ciobanu C.S., Iconaru S.L., Chifiriuc M.C., et al., 2013, "Synthesis and Antimicrobial Activity of Silver-Doped Hydroxyapatite Nanoparticles", BioMed Research International, V(2013).
  • 6. Oh K-S., Kim K-J., Jeong Y-K., et al., 2003, "Effect of fabrication Processes on the antimicrobial properties of silver doped nano-sized Hap", Key Engineering Materials, 240-242, 583-586.
  • 7. Lv G., Li Y., Yang A., et al., 2006, "Preparation and antibacterial activity of silver ions-substituted hydroxyapatite/titania", Materials Science Forum, 510- 511, 78-81.
  • 8. Rameshbabu N., Sampath Kumar T.S., Prabhakar T.G., et al., 2006, "Antibacterial nanosized silver substituted hydroxyapatite: Synthesis and characterization", Journal of Biomedical Materials Research Part A, 80(3), 581-591.
  • 9. SLTC, 2008, "Official methods of analysis, society of leather technologists and chemists". SLTC, Northampton. 10. EPA, 2008, EPA 3050 method series (revision II, December 1996). USA.
  • 11. ASTM D 4576-08:2008, 2008, "Standard Test Method for Mold Growth Resistance of Wet-Blue (Leather)".
  • 12. Mo, A., Liao, J., Xu, W., et al., 2008, "Preparation and antibacterial effect of silver–hydroxyapatite/titania nanocomposite thin film on titanium", Applied Surface Science, 255: 435–438.
  • 13. Çavdar, A., 2009, Development of silver doped nano scaled bio antimicrobial materials for textile industry, Master of Science Thesis, Anadolu University Graduate School of Sciences, Advanced Technologies Program Nanotechnology, Eskişehir, 80p.
  • 14. Percival, S.L., Bowler, P.G. and Russell, D., 2005, "Bacterial resistance to silver in wound care", Journal of Hospital Infection, 60: 1-7.
  • 15. Shibata, T., Hamada, N., Kimoto, K., et al, 2007, "Antifungal Effect of Acrylic Resin Containing Apatite-coated TiO2 Photocatalyst", Dental Materials Journal, 26(3): 437-444.
  • 16. Doğan, A., Pekşen, C., 2005, Applications and Contribution of Metal Ion Doped Antimicrobial Materials in Preventing Hospital Infections, 4th National Congress of Sterilization Disinfection, 59-68.
  • 17. Gaidau, C., Petica, A., Dragomir, T., Iovu, H., Andronescu, C., 2011, "Ag and Ag/TiO2 nano-dispersed systems for treatment of leathers with strong antifungal properties", Journal of the American Leather Chemists Association,106:102-109.
  • 18. Lkhagvajav, N., Koizhaiganova, M., Yasa, I., Çelik, E., Sari, Ö., 2015, "Characterization and antimicrobial performance of nano silver coatings on leather materials", Brazilian Journal of Microbiology, 46(1): 41-48.
  • 19. Lu, Y., Chen, Y., Fan, H.J., Peng, B.Y., Shi, B., 2009, A Novel Nano-SiO2 Tannage for Making Chrome-Free Leather, International Union of Leather Technologists and Chemists Societies IULTCS XXX. Congress. Beijing, China.
  • 20. Kolmas, J., Groszyk, E., Kwiatkowska-Różycka, D., 2014, "Substituted Hydroxyapatites with Antibacterial Properties", BioMed Research International, 2014, 1-15.
  • 21. Iqbal, N., Abdul Kadir, M.R., Nik Malek, N.A.N., et al., 2012, "Rapid microwave assisted synthesis and characterization of nanosized silver-doped hydroxyapatite with antibacterial properties", Materials Letters, 89: 118-122.
  • 22. Ciobanu, C.S., Iconaru S.L., Coustumer, P.L., et al., 2012, "Antibacterial activity of silver-doped hydroxyapatite nanoparticles against gram-positive and gram-negative bacteria", Nanoscale Research Letters, 7: 324
There are 21 citations in total.

Details

Other ID JA89DE77EF
Journal Section Articles
Authors

Meruyert Koızhaıganova This is me

İhsan Yaşa This is me

Gürbüz Gülümser This is me

Publication Date December 1, 2015
Submission Date December 1, 2015
Published in Issue Year 2015 Volume: 25 Issue: 3

Cite

APA Koızhaıganova, M., Yaşa, İ., & Gülümser, G. (2015). ASSESSMENT OF THE ANTIFUNGAL ACTIVITY OF LINING LEATHER TREATED WITH SILVER DOPED HYDROXYAPATITE. Textile and Apparel, 25(3), 280-285.

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