Treatment For Dermatitis Or Eczema
A suitable treatment for dermatitis or eczema includes the use of a substance with strong oxidizing properties that can effectively eliminate the bacteria causing the condition.
Because it is less harsh than regular disinfectants, properly diluted chlorine dioxide can be safely applied directly to the skin without causing irritation or burning.
Using chlorine dioxide as a topical treatment for dermatitis helps promote faster healing times while reducing redness and itching of the affected area. Additionally, this powerful solution has been scientifically proven to help reduce inflammation and swelling associated with the condition.
It is important to note that chlorine dioxide should always be used in accordance with the product’s instructions and never overused as it may cause skin irritation. In addition, it should not be used on open or deep wounds due to its potentially irritating and caustic effects.
Alternative Diy Treatment For Eczema
Chlorine dioxide can be used as an alternative DIY treatment for dermatitis or eczema. It effectively kills the bacteria and fungi that cause the condition due to its strong oxidizing properties.
Because it is less harsh than regular disinfectants, chlorine dioxide can be safely applied directly to the skin without causing irritation or burning.
Using chlorine dioxide for eczema helps reduce inflammation and itching associated with the condition while also providing relief from redness and cracking of the affected area. This powerful solution has been scientifically proven to help promote faster healing times.
Note that you should always use chlorine dioxide in accordance with the product’s instructions and never overuse it as it may cause skin irritation. Also, avoid using it on open or deep wounds due to its potentially irritating and caustic effects.
TOPICAL SKIN SPRAY OR SOAK. ANTIFUNGAL, ANTIBACTERIAL, ANTIVIRAL, ANTIMICROBIAL, TUBERCULOCIDE.
This non-toxic agent can be used as a treatment for dermatitis or eczema, as well as for therapeutic activities. When applied to human tissue, it effectively sanitizes infectious-causing microorganisms on the skin, including mold, without leaving any toxic residue, burning or stinging. Neutralize biological activity like molecules and intramolecular keratin by reacting with amino acids, cysteine, tyrosine, tryptophan, methionine, proline, hydroxyproline, and histidine but does not react with other organic molecules. The frequency of use for dermatologic disorders depends on their identity and severity.
In order to effectively treat or prevent these disorders, it is important to prepare an activated solution with a strength that is consistent with the maximum threshold for use on bacterial, fungal, and yeast infections on skin and scalps. This can include a range of conditions, such as ringworm, athlete’s foot, cold sores, candida embedded in nail beds, staph infections, psoriasis, dry skin, dandruff, bacterial dermatitis, various yeast infections, or health-related applications like wounds, scratches, or hot spots. It can also be used on surfaces that may be contaminated by biomatter capable of decomposing in an aqueous medium to form chlorine dioxide.
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 |
- SPRAY – allow visible wetness for 5 minutes before drying.
- MOP – 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.
- FLUSH / FILL – allow to drench or submerge for 1 minute.
- DIP / RINSE – allow to drench or submerge for 1 minute.
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.
References:
Bakhmutova-Albert, E. V., Margerum, D. W., Auer, J. G., & Applegate, B. M. (2008). Chlorine dioxide oxidation of dihydronicotinamide adenine dinucleotide (NADH). Inorganic chemistry, 47(6), 2205-2211.
Centers for Disease Control and Prevention. (2008). Guideline for disinfection and sterilization in healthcare facilities,. Available at; https://www.cdc.gov/infectioncontrol/pdf/guidelines/disinfection-guidelines.pdf
Huerkamp, M. J., & Pullium, J. K. (2009). Quarantine facilities and operations. In Planning and Designing Research Animal Facilities (pp. 365-376). Academic Press.
Kenyon, A. J., Hamilton, S. G., & Douglas, D. M. (1986). Comparison of antipseudomonad activity of chlorine dioxide/chlorous acid-containing gel with commercially available antiseptics. American journal of veterinary research, 47(5), 1101-1104.
Wilkins, R. J. (2014). Surgical wound management in dogs using an improved stable chlorine dioxide antiseptic solution. J Vet Sci Anim Husb, 1, 403.
World Health Organization. (2001). Infections and infectious diseases: a manual for nurses and midwives in the WHO European Region (No. EUR/01/5019329). Copenhagen: WHO Regional Office for Europe.
Young, R. O. (2016). Chlorine dioxide (ClO2) as a non-toxic antimicrobial agent for virus, bacteria and yeast (Candida albicans). Int J Vaccines Vaccin, 2(6), 00052.
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.