Emergency Treatment For Ringworm. It effectively kills harmful things and fungi that cause the infection due to its strong oxidizing properties. Because it is less harsh than regular clean, Chlorine Dioxide As Treatment For Ringworm and solutions can be used directly on the skin without causing pain or burning.
It is important to note that chlorine dioxide should not be used on open or deep wounds due to its potentially irritating and caustic effects. In addition, it should never be applied on broken skin for more than 10 minutes as it may cause redness and itching in some people.
By using chlorine dioxide, you can help reduce the risk of infection while encouraging faster healing times. Additionally, chlorine dioxide is safe to use around people, including children and pets, so you can feel confident using this powerful solution at home. So don’t wait any longer and choose chlorine dioxide as your go-to solution for treating fungus.
It is important to note that chlorine dioxide should always be used carefully and in agreement with the product’s instructions. It is also necessary to limit its use to only the affected area and never overuse it as it may cause skin interruption.
WOUNDS & INFECTIONS. ANTIFUNGAL, ANTIBACTERIAL, ANTIVIRAL, ANTIMICROBIAL, TUBERCULOCIDE.
Use around people and animals for sanitizing infectious-causing microorganisms on the skin, including mold, and insect bites with no toxic residue, burning or stinging. Use for therapeutic activities and agent effects like triclosan, compounds, sulfonamides, chemicals, anti-inflammatory, and saline. Prepare activated solution to a strength consistent with the maximum threshold for use on lesions, scratches, and wound sites. Bacterial, fungal, and yeast infections on skin, and scalps, like infection, athlete’s foot, cold sores, candida embedded in nail beds. staph, condition, dry skin, dandruff, bacterial dermatitis, a variety of yeast infections, or health-related applications, like wounds, scratches, hot spots, hoof abscesses, and hoof cankers. Disinfection of animal stalls or other restricted areas on farms can fundamentally solve heavy stink and pesky fly infestations.
|Use-Site||For a concentration of||Mix EQUAL PARTS 1:1 – NaClO2 (Part A) and HCl (Part B)|
|Infectious Surfaces Including Skin||10 PPM||10 drops A, with 10 drops B in 1 gallon of water|
Mix recommended strength in the corner of a designated plastic mixing container. Let the solution activate for 1 minute before dilution, then fill with water. Agitate until mixed. Use as a solution in a manner consistent with usual standards.
- SPRAY – allow visible wetness for 5 minutes before drying.
- SWAB / SPONGE – allow visible wetness for 5 minutes before drying.
- SOAK / IMMERSE – allow to drench or submerge for 1 minute.
- DIP / RINSE – allow to drench or submerge for 1 minute.
Doona, C. J., Feeherry, F. E., Setlow, P., Malkin, A. J., & Leighton, T. J. (2014). The Portable Chemical Sterilizer (PCS), D-FENS, and D-FEND ALL: novel chlorine dioxide decontamination technologies for the military. JoVE (Journal of Visualized Experiments), (88), e4354.
El-Zamkan, M. A., Hendy, B. A., Diab, H. M., Marraiki, N., Batiha, G. E. S., Saber, H., … & Ahmed, A. S. (2021). Control of virulent Listeria monocytogenes originating from dairy products and cattle environment using marine algal extracts, silver nanoparticles thereof, and quaternary disinfectants. Infection and Drug Resistance, 2721-2739.
Ge, Y., Lei, Y., Lei, X., Gan, W., Shu, L., & Yang, X. (2020). Exploration of reaction rates of chlorine dioxide with tryptophan residue in oligopeptides and proteins. Journal of Environmental Sciences, 93, 129-136.
Hsu, C. S., Chen, I. M., Liang, C. K., & Shih, C. H. (2016). Evaluation of disinfection efficiency in pet’s hospital by using chlorine dioxide. Sustainable Environment Research, 26(4), 191-195.
Kong, S. B. (2021). Devices, systems and methods of making and using chlorine based formulation with improved stability. Spectrum Doxyicide LLC.
Sun, X., Cui, F., Zhang, J., Xu, F., & Liu, L. (2006). Inactivation of Chironomid Larvae with Chlorine Dioxide. Hazardous Materials, 142(1-2), 348-353.
Zhu, M., Zhang, L., Pei, X., & Xu, X. (2008). Preparation and Evaluation of Novel Solid Chlorine Dioxide-Based Disinfectant. Biomed Environmental Science, 21(2), 157-162.