Polyester Kumaşlar için Probiyotik Baskıların Geliştirilmesi
Hastane kaynaklı enfeksiyonlarda görülen
artış, nozokomiyal patojenlerle mücadelede ve bu patojenlerden kaynaklanan
enfeksiyonları tedavi etmekte probiyotikler de dahil olmak üzere yeni
antimikrobiyallerin araştırılmasına yol açmıştır. Bu yayında, probiyotik
maddeler polyester kumaş üzerine düz baskı tekniği kullanılarak basıldı.
Ardından, baskı işlemi sonrasında probiyotiklerin canlılığı belirlendi.
Üretilen kumaşların kullanılabilirliği su geçirgenliği, aşınma dayanımı ve
yıkama haslıkları temelinde değerlendirildi. Temel bulgular, probiyotik baskılı
kumaşların elde edilmesinin mümkün olduğunu göstermiştir.
Development of Probiotic Printings for Polyester Fabrics
This rising in the emergence of hospital
required infections led to search new antimicrobial agents, including the
probiotics, to combat nosocomial pathogens and to treat their infections. In
this paper, probiotic agents were printed on a polyester fabric by means of
screen-printing. Then the viability of the probiotics after printing process
was determined. The applicability of the
produced fabric was evaluated on the basis of their water absorbency, abrasion
resistance and washing durability properties. The results showed that it is
possible to produce printed fabrics using probiotic agents.
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- Rijkers GT, de Vos WM, Brummer RJ, Morelli L, Corthier G, Marteau P (2011). "Health benefits and health claims of probiotics: Bridging science and marketing". British Journal of Nutrition. 106 (9): 1291–6.
- Soccol, CR; Vandenberrghe, LPS; Spier MR; et al. (2010), The Potential of Probiotics: A Review, Food Technol. Biotechnol., 48(4); 413-434.
- R.B. Parker, (1974) Probiotics, the other half of the antibiotic story, Anim. Nutr. Health, 29 : 4–8.
- Vandini A., Temmerman R., and et al., 2014, “Hard Surface Biocontrol in Hospitals Using Microbial-Based Cleaning Products”, PLoS ONE Vol. 9(9) : e108598.
- Caselli E., D’Accolti M., et al., 2016, “Impact of a Probiotic-Based Cleaning Intervention on the Microbiota Ecosystem of the Hospital Surfaces: Focus on the Resistome Remodulation”. PLoS ONE Vol. 11(2), e0148857.
- Mandal S, Mandal M (2015) Coriander (Coriandrum sativum L.) essential oil: chemistry and biological activity. Asian Pacific J Trop Biomed 5: 421-428.
- Singh AP, Preet S, Rishi P (2011) Augmentation of antimicrobial activity of conventional antibiotics by cell-free extract of L. plantarum. J Antibiotics 64: 795-798.
- Bermudez-Brito, M., Plaza-Díaz, J., Muñoz-Quezada, S., Gómez-Llorente, C. and Gil, A., 2012. Probiotic Mechanisms of Action. Annals of Nutrition and Metabolism, 61(2): 160– 174.
- Casula, G., Cutting SM, (2002), Bacillus Probiotics: Spore Germination in the Gastrointestional Tract, Applied and Environmental Microbiology, 68(5): 2344-2352.
- Forestier, C., De Champs, C., Vatoux, C. and Joly, B., 2001. Probiotic activities of Lactobacillus casei rhamnosus: in vitro adherence to intestinal cells and antimicrobial properties. Research in Microbiology, 152(2): 167–173.
- Makras, L., Triantafyllou, V., Fayol-Messaoudi, D., Adriany, T., Zoumpopoulou, G., Tsakalidou, E., Servin, A. and De Vuyst, L., 2006. Kinetic analysis of the antibacterial activity of probiotic lactobacilli towards Salmonella enterica serovar Typhimurium reveals a role for lactic acid and other inhibitory compounds. Research in Microbiology, 157(3):241–247.
- Servin, A.L., 2004. Antagonistic activities of lactobacilli and bifidobacteria against microbial pathogens. FEMS Microbiology Reviews, 28(4):405–440.
- Setlow, P., 2014. Spore Resistance Properties. In: P. Eichenberger and A. Driks, eds., The Bacterial Spore: from Molecules to Systems. [online] American Society of Microbiology, pp.201–215. Available at: [Accessed 12Aug. 2016].
- Swedish Chemicals Agency, 2012. Antibacterial substances leaking out with the washing water –analyses of silver, triclosan and triclocarban in textiles before and after washing. Sundbyberg: Swedish Chemicals Agency, Sweden.