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Bioactive fibres

Fibres and Textiles in Eastern Europe 10, No.4, Oct.-Dec.2002, p.52 HEALTH-PROMOTING PROPERTIES OF BLANKETS MADE WITH THE BIOACTIVE FIBRE RHOVYL AS IN THE PILE Sedelnik N... [Pg.51]

Mariscal, A., Lopez-Gigosos, R.M., Camero-Var, M.B., Femandez-Crehuet, J.B., 2011. Antimicrobial effect of medical textiles containing bioactive fibres. European Journal of Clinical Microbiology and Infectious Diseases 30 (Issue 2), 227—232. [Pg.116]

A number of kinds of active dressings have been developed that take advantage of surface and/or colloidal principles and systems. Some of them are fairly simple. For example, silver-coated fibres have been used to contribute antimicrobial and antifungal properties into bioactive fibre bandages, which work through direct contact with wound exudate [48,49]. [Pg.445]

P Skundric, A Medovic, Lj Simovic, S Dimitrijevic, M Kostic, Development and characterization of antibacterial bioactive fibres as transdeimal therapeutic systems , 5th World Textile Conf AUTEX 2005, Portoro2, Slovenia, June 27-29, Book 1, p.232, (2005). [Pg.37]

Vigo, T.L., 2001. Antimicrobial polymers and libers retrospective and prospective. In Bioactive Fibres and Polymers, 11. Am. Chem. Soc., pp. 175—200... [Pg.294]

Last twenty years, there has been a very marked increase in the interest and utilisation of smart and bioactive fibres for wound management. These fibres have considerable... [Pg.451]

Itaconic acid Itaconic anhydride Artificial glass, resins fibres, lattices, detergents, bioactive compounds Willke and Vorlop, 2001 Reddy and Singh, 2002 Fevinson etal., 2006... [Pg.84]

The effect of various amounts of Rhovyl AS bioactive PVC fibre in the weft of a blanket on the antibacterial properties and flammability of that blanket was investigated. Using the results obtained, the areas of application of blankets containing 100%, 70% and 50% Rhovyl AS were identified. 12 refs. [Pg.51]

PETPyam was loaded with a cephalosporin-type antibiotic. The release of the arrtibiotic fiomthe fibres was monitored and its bioactivity was examined. 15 refs. [Pg.64]

The mechanical properties of both fibres and textile stmctures are important to determine the suitability of dmg-releasing textiles in various applications. Tensile strength and extension to break values can be determined using standard tensile testing equipment. These values provide a good indication of the mechanical durability of the textiles before and after treatment with bioactive agents. Kumar and co-workers have reported that the bioactive textiles used in regenerative medical applications... [Pg.141]

Joshi, M., Wazed Ah, S., Purwar, R., 2009. Ecofiiendly antimicrobial finishing of textiles using bioactive agents-based on natural products. Indian J. Fibre Text. Res. 34, 295-304. [Pg.32]

Bioactive glass, Chitosan fibre, Polyester amides Park et al. [411 ]... [Pg.210]

Fibrous fillers for biomedical PLA-based FRPs include carbon and inorganic fibres [406], PLLA (i.e. self-reinforcement) [407,408], poly(p-dioxane) fibre [409], chitin [410], biodegradable fibre (e.g. bioactive glass, chitosan fibre, polyester amides) [411], hydroxyapatite fibre [412], hydroxyapatite whiskers [413], halloysite (Al2Si205(0H)4) nanotubes [414] and the fibre from different tissue types of Picea sitchensis [415],... [Pg.212]

In an earlier study, Ducheyne and Hench fabricated composite materials with a bioactive glass (Bioglass ) matrix and stainless steel fibre reinforcement by an immersion technique [25]. Donald et al. have reported on the fabrication of glass and glass-ceramic matrix composites reinforced by stainless steel and Ni-based alloy filaments with diameters in the range 4 to 22 [jum [100, 101]. Glass-encapsulated metal filaments prepared by the Taylor-wire process were used for the fabrication of the composites [100]. [Pg.469]

Schepers, E., Ducheyne, P., De Clercq, M., Interfacial Analysis of Fibre-Reinforced Bioactive Glass Dental Root Implants, J. Biomed. Mat. Res. 23 (1989) 735—752. [Pg.479]

One important field of application for dispersion-reinforced glass matrix composites is as biomaterials for implants and in orthopaedics. Bioactive sihcate and phosphate glasses and glass-ceramics are toughened by incorporating biocompatible second phases, for example titanium, silver or stainless steel particles or chopped fibres [20,24,54,76,77]. [Pg.489]


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