Investigation of Natural Variants for Antimicrobial Finishes in Innerwear A Review Paper for Promotion of Natural Hygiene in Innerwear
|International Journal of Engineering Trends and Technology (IJETT)||
|© 2013 by IJETT Journal|
|Year of Publication : 2013|
|Authors : Sunny Pannu|
Sunny Pannu. "Investigation of Natural Variants for Antimicrobial Finishes in Innerwear A Review Paper for Promotion of Natural Hygiene in Innerwear". International Journal of Engineering Trends and Technology (IJETT). V4(5):2168-2171 May 2013. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group.
This paper gives a review for scope of natural variants in the field of antimicrobial finishes. The main reason of increased interest in this field include: an increased awareness towards personal hygiene, demand for eco friendly finishes and to prevent skin infections, body odour to improve physiological comfort value of garments. The microbial infestation is a common problem especially in natural textiles due to their receptiveness for moisture, dirt, food particles giving scope for microbes growth. In case of innerwear that is next - to - skin the situation becomes more critical. This paper throws light on the present available variants that can be u sed as antimicrobial finish and how their effect can be evaluated to find out effective variant in terms of performance and durability.
 M. M. Cowan, “Plant Products as Antimicrobial Agents,” CLINICAL MICROBIOLOGY REVIEWS, Vol. 12, No. 4, Oct. 1999, p. 564 – 582
 S. K. Bajpai, V. Thomas, M. Bajpai , “Novel Strategy for Synthesis of ZnO Microparticles Loaded Cotton Fabrics and Investigation of their Antibacterial Properties,” Journal of Engineered Fibers and Fabrics, Volume 6, Issue 3 – 2011, p. 73 - 81
 D. N. Muanza, B. W. Kim , K. L. Euler , and L. Williams, “ Antibacterial and Antifungal Activities of Nine Medicinal Plants from Za ire”, Pharmaceutical Biology , Vol 32 , Issue 4 , October 1994 , p. 337 - 345 S. Zhang, C. Zhu, J. K. O. Sin, and P. K . T. Mok, “A novel ultrathin elevated channel low - temperature poly - Si TFT,” IEEE Electron Device Lett. , vol. 20, pp. 569 – 571, Nov. 1999.
 Y. Gao and R. Cranston, “Recent advances in Antimicrobial Treatments of Textiles,” Textile Research Journal , vol. 78, n o.1, pp. 60 – 72. 2008.
 A. I. Wasif, S. K. Laga, and Singh Rubal, “Use of aloe vera, ? - cyclodextrin, zycrobial and chitosan as antimicrobial agents for cotton,” 6th International Conference - TEXSCI 2007 (June 5 - 7) , Liberec, Czech Republic.
 Emmanuel E. I. Ir abor1, Abiodun Falodun, “Antimicrobial evaluation of methanolic extract of colliandra surinamensis on some pathogenic organisms,” Acta Poloniae Pharmaceutica - Drug Research , Vol. 63, No. 5, pp. 449 - 451, 2007
 K.H. Chong, Z. Zuraini, S. Sasidharan, “Antimic robial Activity of Elaeis Guineensis Leaf, ” Pharmacologyonline 3, p. 379 - 386 (2008)
 David T.W. Chun, Gary R. Gamble, “Using the reactive dye method to attach antibacterial compounds to cotton,” 2007 Beltwide Cotton Conferences, New Orleans, Louisiana , Janu ary 9 - 12, 2007, p. 1242 - 1246.
 S. Gupta , G. R. Dwivedi , M. P. Darokar and S. K. Srivastava , “ Antimycobacterial activity of fractions and isolated compounds from Vetiveria z izanioides ,” Medicinal Chemistry Research July 2012 , Volume 21 , Issue 7 , pp 1283 - 1289
 G Thilagavathi , K Rajendra kumar and R Rajendran, “ Dev elopment of antimicrobial textile finishes from plant species,” Fortnightly Insight for Textile Professionals , 1 - 15 June 2005. www.expresstextile.com
 K. Abascal, E. Yarnell, “Herbs and drug resistance: Part 2 ¾ clinical implications of research on microbial resistance to antibiotics,” Alternative & Complementary Therapies 2002 October, p.184 - 290.
 Baid and Arun M, “ Method of dyeing the textile article from medicinally rich herbs,” No. 7485158, Issued on February 3, 2009, http://www.patentgenius.com/number.html
 Jirawan Oonmetta - aree, Tomoko Suzuki, Piyawan Gasaluck, Griangsak Eumkeb, “Antimicrobial properties and action of galangal (Alpinia galanga Linn.) on Staphylococcus aureus,” LWT 39 (2006) p.1214 – 1220, www.elsevier.com/locate/lwt
 W. Curtis White, Robert A. Monticello, “ Antimicrobial Performance of Medical Textiles,” IFAI Expo October 2002 p. 1 - 14
 Youbo Di, Qingshan Li, and Xupin Zhuang, “ “Antibacterial Finishing of Tencel/Cotton Nonwoven Fabric Using Ag Nanoparticles - Chitosan Composite,” Journal of Engineered Fibers and Fabric, Volume 7, Issue 2 – 2012, p. 24 - 29
 C Valgas I ; S M de Souza; E F A Smân; Art ur Smânia, “Screening methods to determine antibacterial activity of natural products,” Braz. J. Microbiol , vol.38 , no.2 , Apr ./June 2007
 I Home, “ Antimicrobials Impart Durable Finishes, ” International Dyer , December 2002, p 9 - 11
 T.S. Dhanaraj , K. Murugaia h and M. Jegadeesan, “Phytochemical Analysis and Antimicrobial Activity of Aegle Marmelos (L.) Corr,” Herbal Tech Industry April 2011, p. 7 - 10
 C. Jofré, F. Guzmánb, C. Cárdenas, F. Albericio, S. H. Marshall, “A natural peptide and its variants derived fro m the processing of infectious pancreatic necrosis virus (IPNV) displaying enhanced antimicrobial activity: A novel alternative for the control of bacterial diseases,” Peptides 32 (2011) 852 – 858
 Ncube, N.S., Afolayan, A. J and Okoh, A., “Assessment techniq ues of antimicrobial properties of natural compounds of plant origin: current methods and future trends,” African journal of Biotechnology, 7 (12) 2008, p. 1897 – 1806
 M. Joshi, S. W. Ali, and R. Purwar, “Eco - friendly antimicrobial finishing of textiles us ing bioactive agents based on natural products,” Indian Journal of Fibre & Textile Research, Vol. 34, Sep 2009, p. 295 - 304
 Kanazawa A, Ikeda T, Endo T, “Antibacterial activity of polymeric sulfonium salts,” Journal of Polymer Science, Part A: Polymer Chemi stry , 1993, 31, p. 2873 - 2876.
 Ingraham, J. and Ingraham, C., “ Introduction to Microbiology, ” Wadsworth, Belmont, CA (1995), pp. 220 – 223.
 Singh R, Jain A, Panwar S, Gupta D and Khare SK , “ Antimicrobial activity of some natural dyes ” Dyes and Pigments 2005; 66 , p. 99 - 102
 Sarkar R . K, De P, Chauhan P . D. , “ Bacteria - resist finishes on t extiles,” Man Made Textiles India , Dec 2001, p. 460 - 407
 S.Mahesh, A.H.Manjunatha Reddy and G.Vijaya Kumar , “ Studies on Antimicrobial Textile Finish Using Certain Plant Natural P roducts ,” International Conference on Advances in Biotechnology and Pharmaceutical Sciences (ICABPS`2011) Bangkok Dec., 2011 , p. 253 - 258
 Isabel C. Gouveia, “Nanobiotechnology: A new strategy to develop non - toxic antimicrobial textiles,” Current Research, T echnology and education Topics in Applied Microbiology and Microbiol Biotechnology,p. 407 - 414
 O L Shanmugasundaram, “Antimicrobial finish in textiles,” http://www.indiantextil ejournal.com/articles/FAdetails.asp?id=507
 Ha - Soo Seong, J P Kim and S W Ko, “Preparing Chito Oligosaccharides as Antimicrobial Agents for Cotton, ” Textile Research Journal , Vol 69, No 7, p 483 - 488
 Payne, J.D. and Kudner, D.W., “A new durable antimicrobia l finish for cotton textiles,” Am Dyest. Rep . 85, p. 26 – 30 (1996)
 G. Raj Kumar and V. Krishnaveni, “An Eco - friendly Herbal Antimicrobial Finish on cotton fabric using Aleo Barbadensis Miller (Aloe Vera),” http:/ /www.fibre2fashion.com
 R. Rajendran, C. Balakumar, Hasabo A. Mohammed Ahammed, S. Jayakumar, “Use of zinc oxide nano particles for production of antimicrobial textiles,” International Journal of Engineering, Science and Technology Vol. 2, No. 1, 2010, p. 202 - 208
 Ammayappan L, Moses J., “Study of Antimicrobial Activity of Aloevera, Chitosan, and Curcumin on Cotton, Wool, and Rabbit Hair,” Fibers and Polymers, 2009;10(2), p. 161 - 166
 Seshadri D T, Bhat N V, “Use of polyaniline a san antimicrobial agent in tex tiles,” Indian Journal of Fibre and Textile Research , 2005, 30, p. 204 - 206.
 M. C. Joerger, R. F. Koniz, S. Sabesan, J. Pennias, “Antimicrobial Polyester - containing Articles and Process for their Preparation”, United States Patent 7,081,139 (2006)
 Ghosh S, Yadav S, Vasanthan N, Sekosan G, “ A study of antimicrobial property of textile fabric treated with modified dendrimers ,” Journal of Applied Polymer Science . 2010 ,115, p. 716 - 722.
 Padm avathy N. and Vijayaraghavan R., “ Enhanced bioactivity of ZnO nanoparticl es - an antimicrobial study, ” Science and Technology of Advanced Materials , 2008 , Vol. 9
 Daniela Enescu , “ Use of Chitosan in Surface Mo dification of Textile Materials,” Roumanian Biotechnological Letters Vol. 13, No. 6, 2008, p. 4037 - 4048
 Weber, D. and Rut ula, W., “Use of metals as microbicides in preventing infections in healthcare, in Disinfection, Sterilization and Preservation, S. Block (ed.), 5th edition, Lippincott, Willams & Wilkins (2001 ).
 Gao Y, Cranston R, “ An effective antimicrobial treatment for wool using polyhexamethylene biguanide as the biocide, Part 2: Further c haracterizations of the fabrics,” Journal of Applied Polymer Science . 2010, 117, p. 2882 - 2887
 C. LIANG., “Anti - microbial Chitosan Composition for Textile Products”, United States Pate nt Application no 20060008515 (2005).
 S. K Vyas, S. V. Ingale, S. Mukhopadhyay & N. Saraf “Aloe Vera and Neem as Antimicrobial Agents,” www.fibertofashion.com
 A.I. Wasif and S.K. Laga , “ Use Of Nano Silver As An Antimicrobial Agent For Cotton,” AUTEX Resea rch Journal , Vol. 9, No1, March 2009 , p. 5 - 13
 T. L. Vigo , “ Protection of textiles from biological attack ” Handbook of Fiber Science and Technology. Chemical Processing of Fibers and Fabrics, Functional Finishes. Part A. In M. LEWIN, S. B. SELLO, , Marcel D ekker, inc., New York, vol. II, 1983, pp. 367 – 426.
 Seyam, A., Oxenham, W. (2004), “Static Generation and Control in Textile Systems,” National Textile Center Annual Report .
 Ghoranneviss.M, Shahidi.S,” Effect of Various Metallic Salts on Antibacterial Activ ity and Physical Properties of Cotton Fabrics,” Journal of Industrial Textile , online published, 2012
 S.Mahesh, A.H.Manjunatha Reddy and G.Vijaya Kumar, “Studies on Antimicrobial Textile Finish Using Certain Plant Natural Products,” International Conferenc e on Advances in Biotechnology and Pharmaceutical Sciences (ICABPS`2011) Bangkok Dec., 2011
 Heywood.D, “Textile Finishing,” Society of Dyers and Colourists, 2003,
 Schindler.W.D , Hauser.P.J, “Chemical finishing of textiles”, woodhead publishing ,2004
 Askew P . D., “ Measuring act ivity in antimicrobial textiles” Chemistry Today , 2009; 27, p. 16 – 20.
 Thiry MC. Small game hunting: anti microbials take the field,” AATCC Rev , Nov 2001 , p. 11 - 1 7
 Rajendran R, Radhai R, and Balakumar C, “Synthesis and Characterization o f Neem Chitosan Nanocomposites for Development of Antimicrobial Cotton Textiles,” Journal of Engineered Fibers and Fabrics , Volume 7, Issue 1 – 2012, p. 136 - 141
Natural Herbs, Microbes, Antimicrobial, Innerwear, Hygiene, Physiological Comfort .