Volume 22, Issue 27 (8-2024)                   RSMT 2024, 22(27): 155-174 | Back to browse issues page


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aghazadeh M, Aminnezhad S. The Effect Of Using Silver And Zinc Oxide Nanoparticles Clothing On The Physiological Responses And Sport Performance Of Active Women. RSMT 2024; 22 (27) :155-174
URL: http://jsmt.khu.ac.ir/article-1-602-en.html
Department of Chemistry, Maku Branch, Islamic Azad University, Maku, Iran. , aghazadehchemist@gmail.com
Abstract:   (2933 Views)
One of the ways to optimize sports activities is the use of nanotechnology. Silver and zinc oxide nanoparticles have valuable effects in improving sports performance of athletes. The purpose of this research was to investigate the effect of clothes containing silver and zinc oxide nanoparticles on the physiological responses and sports performance of female athletes. The statistical population of the research was women active in public sports in Maku city. The sample size was selected by random method and 10 female athletes (with an average age of 25.9, an average weight of 60 kg and a body mass index of 25.49) were selected. The effect of the treatments (sports activity with and without nano clothes) on endurance, moisture absorption, bacterial removal, systolic and diastolic blood pressure and heart rate of the athletes were investigated. The results showed that the use of clothes containing silver and zinc oxide nanoparticles increases their endurance. These clothes lead to an increase in bacteria removal in them. The clothes containing these nanoparticles were effective in reducing their blood pressure. It also improved moisture absorption in female athletes. In general, clothes containing silver nanoparticles and zinc oxide nanoparticles have an effect on reducing the physiological responses and sports performance of female athletes.

 
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Type of Study: Research | Subject: sport physiology
Received: 2023/07/22 | Accepted: 2024/01/10 | Published: 2024/08/31

References
1. Andreta E. Nanosciences and nanotechnologies: what future for research. Future Conference and Expo, Chiba-shi, Chiba, Tokyo. (Feb. 26, 2003).
2. Mahltig B, Haufe H, Bottcher, H. Functionalization of textiles by inorganic sol-gel coatings. Journal of Materials Chemistry. 2005;15(41):4385-4398. [DOI:10.1039/b505177k]
3. Wong YWH, Yuen CWM, Leung MYS, Ku SKA, Lam HLI. Selected applications of nanotechnology in textiles. AUTEX Research Journal. 2006; 6:1-8. [DOI:10.1515/aut-2006-060101]
4. Rai M, Yadav, A. Silver Nanoparticles as A New Generation of Antimicrobials. Biotechnology Advances. 2009;27(1): 76-83. [DOI:10.1016/j.biotechadv.2008.09.002]
5. Rancovic B, Kosanic A. Antimicrobial activities of different extracts of lecanoramuralis parmeliasulcata and parmeliopsisambigua. Pakistan J Botan. 2012;44: 429-37. [DOI:10.1055/s-0028-1084279]
6. Rattanawaleedirojn P, Saengkiettiyut K, Sangsuk S. Antibacterial efficacy of nano silver finished fabric on Staphylococcus aureus and preliminary test on its safety. Journal Nat Science Issue on Nanotechnol. 2008;7(1): 75-9.
7. Maity D, Mollick MDMR, Mondal D, Bhowmick B, Bain, MK, Bankura K, Sarkar J, Acharya K, Chattopadhyay D. Synthesis of Methylcellulose-Silver Nanocomposite and Investigation of Mechanical and Antimicrobial Properties. Carbohydrate Polymers. 2012; 90:1818-1825. [DOI:10.1016/j.carbpol.2012.07.082]
8. Boschetto D., Lerin L, Cansian R, Pergher SBC, Luccio MD. Preparation & Antimicrobial Activity of Polyethylene Composite Films with Silver Exchanged Zeolite-Y. Chemical Engineering Journal. 2012;204-206, 210-216. [DOI:10.1016/j.cej.2012.07.111]
9. Ostrowski AD, Martin T, Conti J, Hurt I, Harthorn BH. Nanotoxicology: characterizing the scientific literature, 2000-2007. J Nano part Res. 2009;11: 251-257. https://doi.org/10.1007/s11051-008-9579-5 [DOI:10.1007/s.11051.008.9579.5]
10. Veisi Malekshahi Z, Afshar D, Ranjbar R, Shirazi MH, Rezaei F, Mahboubi R, Pakbaz Z, Hajikhani S. Antimicrobial properties of zinc oxide nanoparticles. Quarterly Journal of Infectious and Tropical Diseases. 2011;17(59):1-4. (Persian) Available from: https://sid.ir/paper/52762/fa
11. Song W, Zhang J, Guo J, Zhang J, Ding F, Li L, Sun Z. Role of the dissolved zinc ion and reactive oxygen species in cytotoxicity of ZnO nanoparticles. Toxicology Letters. 2010;199: 389-397. [DOI:10.1016/j.toxlet.2010.10.003]
12. Abbasi A. Applications of nano technology in the textile industry (a collection of nano technology monitoring reports). Tehran: Publications of the special headquarters for the development of nanotechnology. (2011) (Persian)
13. Jafari M, Musa Zadegan F. Investigating the effect of the material of sportswear on the comfort of athletes during activity, The 11th National Conference of Textile Engineering of Iran. (2017) (Persian)
14. Shahbazi M, Sadeghi H, Kohandel M, Doroudian AA. Effect of the Fast-Skin swim suit on Iranian elite female swimmers' performance. Research in Sport Medicine and Technology. 2013;11(5):25-37. (Persian)
15. Islami M, Basiri Z. The effect of using nano technology in the sole of sports shoes on ankle power in the support phase of running. Quarterly Journal of Applied Sports Physiology. 2015;12(23):43-52. (Persian) https://doi. rg/10.18869/acadpub.aassjournal.2.3.33
16. Majidnia Z,Idris A, Valipour P. Improvement of antibacterial properties of leather by silver nanoparticles by corona electric discharge radiation. Quarterly journal of textile technology science. 2010;5(1):51-64. (Persian)
17. Emamifar A, Kadivar M, Shahedi M, Soleimanianzadeh S. Effects of nanocomposite packaging containing silver and zinc oxide on the shelf-life of fresh orange juice. Iranian Journal of Nutrition Sciences & Food Technology. 2010;6(1):57-67. (Persian) URL: http://nsft.sbmu.ac.ir/article-1-458-en.html
18. Haji Mirzababa H, Montazer M, Rahimi MK. Investigating the antimicrobial effect of nylon flooring containing nano silver. Islamic Azad University Medical Sciences Quarterly. 2012;21(2):101-107. (Persian) Available from: https://sid.ir/paper/98730/en
19. Nabipour YE, Rostamzad A, Hesampour A, Tajabadi M, Ahmadi Asbchin S. Effects of Biosynthesized Zinc and Copper Nanoparticles on Medicine Resistant Pathogenic Bacteria (Antibiotics). Journal of Ilam University of Medical Sciences. 2023;30(5):40-50.
20. Duran N, Marcarto PD, De Souza GIH, Alves OL, Esposito E. Antibacterial effect of silver nanoparticles produced by fungal process on textile fabrics and their effluent treatment. Journal Biomed Nanotechnology. 2007;203-208. [DOI:10.1166/jbn.2007.022]
21. Ingle A, Gade A, Pierrat S, Sonnichsen C, Rai M. Mycosynthesis of silver nanoparticles using the fungus Fusarium acuminatum and its activity against some human pathogenic bacteria. Curr Nano sci. 2008;4: 141-144. [DOI:10.2174/157341308784340804]
22. Gade A, Gaikwad S, Tiwari V, Yadav A, Ingle A, Rai M. Bio fabrication of silver nanoparticles by Opuntia Ficus-indica: in vitro antibacterial activity and study of the mechanism involved in the synthesis. 2010; Curr Nano sci. 370-375. [DOI:10.2174/157341310791659026]
23. Zapata PA, Tamayo L, Paez M, Cerda E, Azocar I, Rabagliati FM. Nanocomposites Based on Polyethylene and Nanosilver Particles Produced by Metallocenic'' In Situ'' Polymerization: Synthesis, Characterization, and Antimicrobial Behavior. European Polymer Journal. 2011; 47, 1541-1549. [DOI:10.1016/j.eurpolymj.2011.05.008]
24. Heidarnejad MS, Yarmohammadi-Samani P, Mobini-Dehkordi M, Rahnama S. Assessing the effects of silver nanoparticles on some hematological parameters during the wound healing in mice. Feyz, Journal of Kashan University of Medical Sciences. 2013;17(4): 359-365. (Persian)
25. Zaboli Kh, Aliarabi H, Tabatabai MM, Bahari AA, Zarei ghane Z. Effect of zinc oxide nano particle and zinc oxide on performance and some blood parameters in male Markos goat kids. Animal Production Research. 2013;2(2):29-41. (Persian) available at https://cabidigitallibrary.org/terms-and-conditions
26. Razmara P, Peykan Heyrati F, Dorafshan S. Effect of Silver Nanoparticles on Some Hematological Indices of Rainbow Catfish (Pangasius Hypophthalmus). Journal of Cell & Tissue.2014;5(3):263-272. Available from: https://sid.ir/paper/188893/en
27. Khodadadi S, Naghsh N, Mashayekh AM. Effects of silver nanoparticle on lactate dehydrogenase activity and histological changes of heart tissue in male wistar rats. Journal of Fasa University of Medical Sciences. 2013;2(4):303-307. (Persian)
28. Krogman KC, Zacharia NS, Schroeder S, Hammond PT. Automated process for improved uniformity and versatility of layer-by-layer deposition. Langmuir; 2007; 23(6): 3137-3141. [DOI:10.1021/la063085b]
29. Harifi H, Montazer M. Application of nanotechnology in sports clothing and flooring for enhanced sport activities, performance, efficiency and comfort: a review. Journal of Industrial Textiles. 2017;46(5):1147-1169. [DOI:10.1177/1528083715601512]
30. Nobakht F, Fakhri Mirzanagh E, Ashrafi N, Fakhraipour P. Design and Manufacture of Antimicrobial New Sport Shoes Using Nano-silver to Prevent Germs and Viruses. Journal of Sport Biomechanics. 2022;8(3):200-212. (Persian) https://doi.org/10.61186/JSportBiomech.8.3.200 [DOI:10.21859/JSportBiomech.8.3.326.2]

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