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... 

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. 

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]. 

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). 

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

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... 

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

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. 

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

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... 

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. 

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

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],... 

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]. 

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. 

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]. 

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