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L. Tan, L. Sin, S. Bee, C. Ratnam, K. Woo, T. Tee, A. Rahmat (2019)
A review of antimicrobial fabric containing nanostructures metal‐based compoundJournal of Vinyl and Additive Technology, 25
E. Koh, K. Hong (2014)
Gallnut extract-treated wool and cotton for developing green functional textilesDyes and Pigments, 103
A. Klančnik, Saša Piskernik, B. Jeršek, S. Možina (2010)
Evaluation of diffusion and dilution methods to determine the antibacterial activity of plant extracts.Journal of microbiological methods, 81 2
A Potthast, T Rosenau, P Kosma, D Klemm (2006)
Polysaccharides IIAdvances in Polymer Science, Vol. 205
(2009)
Lasunción in “Wine Chemistry and Biochemistry
C. Papuc, G. Goran, C. Predescu, V. Nicorescu, G. Ștefan (2017)
Plant Polyphenols as Antioxidant and Antibacterial Agents for Shelf-Life Extension of Meat and Meat Products: Classification, Structures, Sources, and Action Mechanisms.Comprehensive reviews in food science and food safety, 16 6
L. Zemljič, J. Volmajer, Tijana Ristić, Matej Bračič, O. Sauperl, T. Kreže (2014)
Antimicrobial and antioxidant functionalization of viscose fabric using chitosan–curcumin formulationsTextile Research Journal, 84
Jingqiu Wang, Xianying Fang, Lin Ge, F. Cao, Linguo Zhao, Zhenzhong Wang, W. Xiao (2018)
Antitumor, antioxidant and anti-inflammatory activities of kaempferol and its corresponding glycosides and the enzymatic preparation of kaempferolPLoS ONE, 13
L. Zemljič, Zdenka Peršin, O. Sauperl, A. Rudolf, M. Kostić (2018)
Medical textiles based on viscose rayon fabrics coated with chitosan-encapsulated iodine: antibacterial and antioxidant propertiesTextile Research Journal, 88
J. Široký, R. Blackburn, T. Bechtold, Jim Taylor, Patrick White (2010)
Attenuated total reflectance Fourier-transform Infrared spectroscopy analysis of crystallinity changes in lyocell following continuous treatment with sodium hydroxideCellulose, 17
M. Schwanninger, J. Rodrigues, H. Pereira, B. Hinterstoisser (2004)
Effects of short-time vibratory ball milling on the shape of FT-IR spectra of wood and celluloseVibrational Spectroscopy, 36
F. Carrillo, X. Colom, J. Suñol, J. Saurina (2004)
Structural FTIR analysis and thermal characterisation of lyocell and viscose-type fibresEuropean Polymer Journal, 40
A. Horrocks, S. Anand (2000)
Handbook of technical textiles
A. Kramar, V. Prysiazhnyi, B. Dojčinović, K. Mihajlovski, B. Obradović, M. Kuraica, M. Kostić (2013)
Antimicrobial viscose fabric prepared by treatment in DBD and subsequent deposition of silver and copper ions—Investigation of plasma aging effectSurface & Coatings Technology, 234
(2012)
Fras-Zemljič in “Textiles: Types, Uses and Production Methods
(2000)
Encyclopedia of Analytical Chemistry
Javed Sheikh, Indrajit Bramhecha (2018)
Multifunctional modification of linen fabric using chitosan-based formulations.International journal of biological macromolecules, 118 Pt A
(2014)
R . Rajendran , and M . Mahalakshmi
A. Rigby, S. Anand (2000)
15 – Medical textiles
G. Fawal, A. Omer, T. Tamer (2019)
Evaluation of antimicrobial and antioxidant activities for cellulose acetate films incorporated with Rosemary and Aloe Vera essential oilsJournal of Food Science and Technology, 56
R. Rajendran, R. Radhai, T. Kotresh, E. Csiszár (2013)
Development of antimicrobial cotton fabrics using herb loaded nanoparticles.Carbohydrate polymers, 91 2
B. Cruz, H. Santos, P. Bandeira, T. Rodrigues, M. Matos, M. Nascimento, Guilherme Carvalho, R. Braz-Filho, A. Teixeira, S. Tintino, H. Coutinho (2020)
Evaluation of antibacterial and enhancement of antibiotic action by of flavonoid kaempferol 7-O-β-D-(6"-O-cumaroyl)-glucopyranoside isolated from Croton piauhiensis Müll.Microbial pathogenesis
M. Moreno-Arribas, M. Polo (2009)
Wine chemistry and biochemistry
Mercedes Pérez-Recalde, Ignacio Arias, É. Hermida (2018)
Could essential oils enhance biopolymers performance for wound healing? A systematic review.Phytomedicine : international journal of phytotherapy and phytopharmacology, 38
Shahid‐ul‐Islam, S. Wani, F. Mohammad (2017)
Imparting functionality viz color, antioxidant and antibacterial properties to develop multifunctional wool with Tectona grandis leaves extract using reflectance spectroscopy.International journal of biological macromolecules, 109
(2000)
Anand in “Handbook of Technical Textiles
J. Cho, J. Moon, K. Seong, K. Park (1998)
Antimicrobial activity of 4-hydroxybenzoic acid and trans 4-hydroxycinnamic acid isolated and identified from rice hull.Bioscience, biotechnology, and biochemistry, 62 11
D. Nithyakalyani, T. Ramachandran, R. Rajendran, M. Mahalakshmi (2013)
Assessment of antibacterial activity of herbal finished surface modified polypropylene nonwoven fabric against bacterial pathogens of woundJournal of Applied Polymer Science, 129
T. Nikolić, M. Kostić, Jovana Praskalo, Biljana Pejić, Ž. Petronijević, Petar Škundrić (2010)
Sodium periodate oxidized cotton yarn as carrier for immobilization of trypsinCarbohydrate Polymers, 82
A. Phan, G. Netzel, Dongjie Wang, B. Flanagan, B. D'Arcy, M. Gidley (2015)
Binding of dietary polyphenols to cellulose: structural and nutritional aspects.Food chemistry, 171
Dejan Stojković, J. Petrović, M. Soković, J. Glamočlija, J. Kukić-Marković, S. Petrović (2013)
In situ antioxidant and antimicrobial activities of naturally occurring caffeic acid, p-coumaric acid and rutin, using food systems.Journal of the science of food and agriculture, 93 13
(2012)
Science against microbial pathogens : communicating current research and technological advances
A. Dávalos, M. Lasunción (2009)
Health-Promoting Effects of Wine Phenolics
(2006)
Kosma in “Polysaccharides II
Fibre Text
Oludemi Taofiq, S. Heleno, R. Calhelha, I. Fernandes, M. Alves, L. Barros, A. González-Paramás, I. Ferreira, M. Barreiro (2019)
Phenolic acids, cinnamic acid, and ergosterol as cosmeceutical ingredients: Stabilization by microencapsulation to ensure sustained bioactivityMicrochemical Journal
Dongjie Liu, M. Martínez-Sanz, P. Lopez-Sanchez, E. Gilbert, M. Gidley (2017)
Adsorption behaviour of polyphenols on cellulose is affected by processing historyFood Hydrocolloids, 63
P. Romano (2011)
Application of Alternative Food-Preservation Technologies to Enhance Food Safety & Stability
T. Nikolić, Jovana Milanovic, A. Kramar, Ž. Petronijević, Ljubisa Milenkovic, M. Kostić (2014)
Preparation of cellulosic fibers with biological activity by immobilization of trypsin on periodate oxidized viscose fibersCellulose, 21
T. Costa, H. Rogez, R. Pena (2015)
Adsorption capacity of phenolic compounds onto cellulose and xylanFood Science and Technology International, 35
Beibei Chai, Weijia Jiang, H. Mei, Yongji Wu, Hongbin Si (2019)
In vitro synergistic interactions of Protocatechuic acid and Chlorogenic acid in combination with antibiotics against animal pathogensSynergy, 9
R. Oliveira, M. Mancini, F. Oliveira, Thayse Passos, B. Quilty, R. Thiré, G. McGuinness (2016)
FTIR analysis and quantification of phenols and flavonoids of five commercially available plants extracts used in wound healingMateria-rio De Janeiro, 21
Six ethanolic extracts, obtained from anise, fennel, lavender, sage, mint, white horehound and their mixture were directly applied onto cellulose (viscose) fabric to impart antimicrobial and antioxidant functionality for its potential use as a wound dressing. Antimicrobial activity of treated fabrics against gram-positive bacteria S. aureus and yeast C. albicans, as common skin pathogens, was determined by agar diffusion test. The most effective against both microorganisms was viscose with anise, fennel, and mint, whereby clear inhibition and suppression zones were detected. The oxidation of viscose, intended to improve sorption properties and consequently adsorption of extracts, increased the antimicrobial activity of viscose with a mixture of extracts. The antioxidant activity of fabric samples with extracts, determined by 2,2-Diphenyl-1-picrylhydrazyl (DPPH) assay, was significantly higher when compared to the untreated viscose sample (2.38 %) and ranged from 11.82 % for viscose with fennel up to 87.71 % for viscose with sage. Oxidation of fabric before sorption of extracts mixture contributes to higher antioxidant activity (68.81 %). Direct impregnation of bioactive plants extracts onto the fabric represents low cost and simple method, which makes it suitable for obtaining eco-friendly, low-cost disposable medical textiles with the therapeutic and prophylactic role.
Fibers and Polymers – Springer Journals
Published: Dec 1, 2021
Keywords: Cellulose; Plant extract; Antimicrobial; Antioxidant; Medical textile
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