Tuya Hand Sanitiser Spray (100ml)
The Tuya Hand Sanitiser kills 99.99% of germs using Ionic Silver Technology.
There is an alcohol free spray formulation and a 70% alcohol gel formulation that leaves your skin clean and smooth and free from harmful ingredients.
My understanding and respect for the technology goes back many years and I have used it in the salon with amazing results. With what’s shaking our world at the moment it was a no brainer that I needed to share it’s magic now.
Directions:
Spray directly on “HANDS”,
gently rubbing entire area including
around cuticle, under nails,
between fingers and let air dry.
Spray fine mist onto “SURFACES”
and let air dry.
Keep out of reach of children.
Do not swallow.
Active ingredients
Positively charged silver ions
Kills 99.99% of Germs
100ml
For further information Google > Benefits of Ionic Silver
Silver is a well-documented antimicrobial, that has been shown to kill bacteria, fungi and certain viruses. It is the positively charged silver ions (Ag+) that possess the antimicrobial effect. Silver ions target microorganisms through several different modes of action. For example, silver ions are incorporated into the bacterial cell membranes and bind to membrane proteins responsible for transport of substances in and out of the bacterial cells. Silver ions are also transported into the cells and will block cell division by binding to the DNA.
Reference: Kent Nieson - Click here for information
Microbial cells have a sophisticated internal electrical system that they use in all of their life processes.
Charged silver ions have the ability to disrupt this process and to prevent these micro-organisms from conducting electricity.
This makes them unable to function and so they collapse and die.
More information can be found here.
Silver has a long history of use in wound care and the safety record of the modern silver-containing wound dressings has been excellent. Several mechanisms exist by which the body removes excess silver. {Reference}
The use of silver in medicine dates back thousands of years, and scientists have long known that the metal is a potent antibacterial agent. Silver ions perform their deadly work by punching holes in bacterial membranes and wreaking havoc once inside. They bind to essential cell components like DNA, preventing the bacteria from performing even their most basic functions. {Reference}
You can search up references to the information by googling any of the articles below:
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2. Coloplast A/S, ReD associates. Data on file. 2014.
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4. World Union of Wound Healing Societies (WUWHS). Florence Congress, Position Document. Management of biofilm. 2016.
5. Appropriate use of silver dressings in wounds. An expert working group consensus. International consensus. London; 2012.
6. Lansdown AB. A review of the use of silver in wound care: facts and fallacies. British Journal of Nursing. 2004;13(6):s6-19.
7. Rodriguez-Arguello J, Lienhard K, Patel P, Geransar R, Somayaji R, Parsons L, et al. A Scoping Review of the Use of Silver-impregnated Dressings for the Treatment of Chronic Wounds. Ostomy Wound Management. 2018;64(3):14-31.
8. Dissemond J, Bottrich JG, Braunwarth H, Hilt J, Wilken P, Munter KC. Evidence for silver in wound care - meta-analysis of clinical studies from 2000-2015. Journal of the German Society of Dermatology. 2017;15(5):524-35.
9. Norman G, Westby MJ, Rithalia AD, Stubbs N, Soares MO, Dumville JC. Dressings and topical agents for treating venous leg ulcers. Cochrane Database of Systematic Reviews. 2018(6):1-289.
10. Münter KC, Beele H, Russell L, Crespi A, Grochenig E, Basse P, et al. Effect of a sustained silver-releasing dressing on ulcers with delayed healing: the CONTOP study. Journal of wound care. 2006;15(5):199-206.
11. Jørgensen B, Price P, Andersen KE, Gottrup F, Bech-Thomsen N, Scanlon E, et al. The silver-releasing foam dressing, Contreet Foam,promotes faster healing of critically colonised venous leg ulcers: a randomised, controlled trial. International wound journal. 2005;2(1):64-73.
12. Rayman G, Rayman A, Baker NR, Jurgeviciene N, Dargis V, Sulcaite R, et al. Sustained silver-releasing dressing in the treatment of diabetic foot ulcers British Journal of Nursing. 2004;14(2);109-14.
13. Humbert P, Zuccarelli F, Debure C, Vendeaud Busquet F, Bressieux J-M, Bedane C, et al. Leg Ulcers Presenting Local Signs of Infection:Interest of Biatain Argent Wound Dressing. Journal des Plaies et Cicatrisations. 2006;52(9):41-7.
14. Lázaro-Martínez JL, Álvaro-Afonso FJ, García-Álvarez Y, García-Morales E, Sanz-Corbalán I, Molines-Barroso RJ. Clinical and microbiologicaleffectiveness of a hydropolymer alveolar dressing with ionic silver complex and silicone adhesive. Poster, EWMA(EPP021); 2018.
15. Leaper D, Münter C, Meaume S, Scalise A, Mompó NB, Jakobsen BP, et al. The Use of Biatain Ag in Hard-to-Heal Venous Leg Ulcers:Meta-Analysis of Randomised Controlled Trials. PLoS ONE. 2013;8(7):e67083.
16. Jemec GB, Kerihuel JC, Ousey K, Lauemoller SL, Leaper DJ. Cost-Effective Use of Silver Dressings for the Treatment of Hard-to-HealChronic Venous Leg Ulcers. Plos One. 2014;9(6):e100582.
17. Mouës C, Heule F, Legerstee R, Hovius S. Five Millennia of Wound Care Products - What is New? A Literature Review. Ostomy Wound Management. 2009;55(3):16-8.
18. Sibbald R, Williamson D, Orsted H, Campbell K, Keast D, Krasner D, et al. Preparing the Wound Bed - Debridement, Bacterial Balance, and Moisture Balance. Ostomy Wound Management. 2000;46(11):14-35.
19. Adderley UJ. Managing wound exudate and promoting healing. British Journal of Community Nursing. 2010;15(3):15-20.
20. Christiansen C, Huniche GB, Allesen-Holm M. In vitro evaluation of a silver foam dressing with and without silicone adhesive against biofilms and a broad range of microorganisms. Poster, EWMA(EPP025); 2018.
21. Lansdown AB. Silver in health care: antimicrobial effects and safety in use. Current Problems in Dermatology. 2006;33:17-34.
22. Percival SL, Thomas J, Linton S, Okel T, Corum L, Slone W. The antimicrobial efficacy of silver on antibiotic-resistant bacteria isolated fromburn wounds. International wound journal. 2012;9(5):488-93.
23. Böttrich JG, Brill FHH, Dissemond J, Steinmann J, Münter KC, Schümmelfeder F, et al. A Systematic Review of the Risk of Bacterial Resistance to Silver. Poster, EWMA; 2018.
24. Percival SL, Woods E, Nutekpor M, Bowler P, Radford A, Cochrane C. Prevalence of Silver Resistance in Bacteria Isolated from Diabetic Foot Ulcers and Efficacy of Silver-Containing Wound Dressings. Ostomy Wound Management. 2008;54(3):30-40.
25. Kostenko V, Lyczak J, Turner K, Martinuzzi RJ. Impact of Silver-Containing Wound Dressings on Bacterial Biofilm Viability and Susceptibility to Antibiotics during Prolonged Treatment. Antimicrobial Agents and Chemotherapy. 2010;54(12):5120-31.
26. Burger C, Lemoult S, Andersen MB. Silver release profile and antibacterial effect of a new silver foam dressing with silicone adhesive.Poster, EWMA(EPP025); 2018.
27. Malone M, Bjarnsholt T, McBain AJ, James GA, Stoodley P, Leaper D, et al. The prevalence of biofilms in chronic wounds: a systematic review and meta-analysis of published data. Journal of wound care. 2017;26(1):20-5.
28. Bjarnsholt T. The Role of Bacterial Biofilms in Chronic Infections. Acta pathologica, microbiologica, et immunologica Scandinavica. 2013;121(s136):1-58.
29. Costerton JW. Bacterial Biofilms: A Common Cause of Persistent Infections. Science. 1999;284(5418):1318-22.
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31. Bessa LJ, Fazii P, Di Giulio M, Cellini L. Bacterial isolates from infected wounds and their antibiotic susceptibility pattern: some remarks about wound infection. International wound journal. 2013;12(1):47-52.
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33. ASTM E2149-13a, Standard Test Method for Determining the Antimicrobial Activity of Antimicrobial Agents Under Dynamic Contact Conditions. ASTM International. 2013.
34. prEN16756 (draft). Antimicrobial wound dressings – Requirements and test methods. 2014.
35. Howell-Jones RS, Wilson MJ, Hill KE, Howard AJ, Price PE, Thomas DW. A review of the microbiology, antibiotic usage and resistance in chronic skin wounds. Journal of Antimicrobial Chemotherapy. 2005;55(2):143-9.
36. Bowler PG, Duerden BI, Armstrong DG. Wound Microbiology and Associated Approaches to Wound Management. Clinical Microbiology Reviews. 2001;14(2):244-69.
37. Daeschlein G. Antimicrobial and antiseptic strategies in wound management. International wound journal. 2013;10 Suppl 1:9-14.
38. Thomas S. Laboratory findings on the exudate-handling capabilities of cavity foam and foam-film dressings. Journal of wound care.2010;19(5):192-9.
39. White R, Cutting KF. Modern exudate management: a review of wound treatments. Poster, EWMA(EPP025); 2018.
40. Romanelli M, Vowden K, Weir D. Exudate management made easy. Wounds International. 2010;1(2):1-6.
41. Andersen MB. Comparison of 24 hours fluid handling and absorption under pressure between four wound dressings with Ag and silicone adhesive. EWMA(EP296); 2016.
42. Baños AM, Nogueras FI, Palomar LF. Clinical evaluation of a silver dressing in the treatment of infected and colonized ulcers. Revista deenfermería. 2008;31(3):42-8.
43. Senet P, Bause R, Jorgensen B, Fogh K. Clinical efficacy of a silver-releasing foam dressing in venous leg ulcer healing: a randomised controlled trial. International wound journal. 2014;11(6):649-55.
44. Flanagan M. Wound measurement: can it help us to monitor progression to healing? Journal of wound care. 2003;12(5):189-94.