Legalized Chlorine Dioxide for Daily Use

Doctors like Dr. Pierre Kory have discovered that chlorine dioxide is a great medicine and should be widely used. Just a few of the hundreds of thousands of doctors will speak of chlorine dioxide. Yet, water professionals and dentists know exactly how good it is for the elimination of pathogens.

If Kennedy were interested in making America healthy again, he would put near the top of his list the wide promotion of chlorine dioxide for acute and chronic conditions. NASA, back in 1987, recognized chlorine dioxide as a UNIVERSAL ANTIDOTE. Though it is illegal for doctors to use it as a medicine, you can recommend it to yourself and follow the treatment protocols of dentists who use it legally, for it does wonders for the mouth. Of course, it does wonders for the blood, too.

Chlorine dioxide is recognized as a highly potent, broad-spectrum antimicrobial that has been successfully developed for use in various areas, including municipal water supplies and food processing. In dentistry, chlorine dioxide-containing products have demonstrated their ability to oxidatively consume volatile sulfur compounds (VSCs) responsible for halitosis, elevate the oxygen tension in both saliva and plaque, remove residual organic solutes, and suppress the activity of bacterial proteolytic enzymes (Chapek, 1994).

The effectiveness of topical chlorine dioxide (0.8%) in the management of
chronic atrophic candidiasis was demonstrated. ClO2 provides a safe and
clinically effective option in the management of chronic atrophic candidiasis.[i]

DioxiRinse, a chlorine dioxide mouthwash, has multiple benefits for the oral cavity. The combination of potent antimicrobial efficacy against bacteria, viruses, fungi, and yeast and its anti-inflammatory properties makes it a great biofilm remover. While being safe for use on the body, chlorine dioxide makes it particularly useful in the mouth:

1. Eliminates bad breath
   • Neutralizes the foul smells (VSCs).
   • Kills the bacteria that create the volatile sulfur compounds.
   • Oxidizes the proteins that the bacteria use to make the VSCs.
2. It helps improve gum disease, gingivitis, and periodontitis.
3. It helps prevent and remove plaque buildup.
4. Treats any kind of infection in the mouth and likely helps to prevent infection if used prophylactically.
5. Great for sore throats.
6. Possibly helps the spread of bacteria systemically
7. Helps soothe or possibly prevent mucositis lesions due to head and neck radiation
8. It is excellent for use after laser periodontal therapy, instead of tooth brushing, so as not to disturb the fibrin clot that forms on the gums after the surgery. DioxiRinse (I would use homemade CDS) prevents tartar buildup.
9. Soothes canker sores.
10. DioxiRinse, as does chlorhexidine, doesn’t stain the teeth and can be used daily, unlike chlorhexidine, which cannot be used for more than 14 days.
11. It can also clean and disinfect your toothbrush and dental appliances.

In an age of chronic toxicity, chlorine dioxide is useful against poisons. It is a medicine waiting to be re-understood. Many practitioners and patients discover that chlorine dioxide’s power doesn’t stop in the oral cavity. While illegal for doctors to prescribe, chlorine dioxide (ClO₂) has been recognized by practitioners worldwide for its broad-spectrum antimicrobial, anti-inflammatory, and tissue-healing properties.

At the molecular level, chlorine dioxide (ClO₂) is medicine’s most remarkable and misunderstood agent. It is not just a disinfectant — it is a powerful oxygen-releasing compound capable of penetrating biological systems, neutralizing pathogens, and restoring redox balance. Despite media censorship and regulatory resistance, chlorine dioxide has quietly gained global recognition among physicians, researchers, and citizens who have witnessed its effects firsthand.

Chlorine dioxide is a simple molecule (ClO₂) consisting of one chlorine atom and two oxygen atoms. When activated in water, it releases nascent oxygen — a reactive, energetic form of oxygen that selectively oxidizes harmful compounds and pathogens without damaging healthy tissue.

Oxygen Donation and Blood Purification

Chlorine dioxide contributes to oxygenation by:

• Releasing molecular oxygen (O₂) into the bloodstream, especially when taken in small, diluted oral doses (in non-medical contexts)
• Improving red blood cell flexibility and oxygen-carrying capacity
• Reducing pathogen-induced hypoxia in cases of infection

This makes ClO₂ a critical agent in oxygen-deficient disease states, from chronic infections to cardiovascular dysfunction. ClO₂ works not by poisoning pathogens but by oxidizing their vulnerable proteins and cell membranes. This results in rapid inactivation without promoting resistance — a key advantage over antibiotics. Suppressing chlorine dioxide is one of the most ridiculous things in medicine, for it suppresses oxygen itself — the very element life depends on.

A transparent, data-driven national conversation about ClO₂ is long
overdue. Millions could benefit — and already do, off the radar of the FDA.

Personal Note: I use CDS, chlorine dioxide gas dissolved in water, every morning to clean my mouth of all bacteria and fungus that might accumulate overnight. At 72, I need to be careful with my teeth, but that is not my original reason for using CDS at a high concentration in my mouth. It was suggested that sublingual absorption was a good idea, and it was tested successfully on a severe case of vascular disease. It certainly is good for blood dynamics and works partially as a blood thinner by separating red blood cells from each other. It releases molecular oxygen (O₂) into the bloodstream.

It is an oxidative therapy and should be used by cancer patients. Chlorine Dioxide targets cancer cells like a magnet because of the lactic acid at the cancer site. Once the Chlorine Dioxide comes into contact with lactic acid, it releases oxygen directly where it is most needed.

Cancer cells are known to produce excessive amounts of lactic acid. This is because cancer cells have dysfunctional mitochondria, which prevents their use of the citric acid [Krebs] cycle. Consequently, pyruvic acid, the product of glycolysis, which generally would enter the mitochondria for its total combustion into energy, is instead converted to lactic acid.

Cancer cells are reported to produce 40 times more lactic acid than normal cells. As a result, their metabolism is dirty and poisons the cells around them with increasing acidity.

[i] International Dental Journal (2004) 54, 154–158