The persistently high mortality associated with invasive MRSA infection highlights the need for high-quality trials to determine optimal management for these patients.
In these in vitro experiments, the efficacy of chlorine dioxide against MRSA has been shown consistently, with growth inhibition of 99.99% -100% in even the smallest concentrations of 0.5ppm.

MRSA under the microscope
Scanning electron micrograph (SEM) of Staphylococcus aureus. Numerous clumps of methicillin-resistant Staphylococcus aureus bacteria, commonly referred to by the acronym, MRSA; Magnified 4780×.

Text&Photo CDC, Public Health Image Library (PHIL)
This image is in the public domain and thus free of any copyright restrictions.

CDS is available at this link :
https://t.me/MMSChlorineDioxide/3485

MMS/CHLORINE DIOXIDE RESOURCES, [Feb 22, 2025 at 20:51]
MRSA eradication using chlorine dioxide
George Georgiou
Da Vinci BioSciences Research Centre, Cyprus
Published: July 30, 2021

Antimicrobial-resistant (AMR) infections currently claim at least 50,000 lives each year across Europe and the US alone, with many hundreds of thousands more dying in other areas of the world.
Chlorine dioxide used in vitro, has been our main focus of this research, as it was the most effective, compared to other natural substances tested.

ClO2 is an oxidizer, which is reduced to chlorite ion (ClO2 -) by capturing an electron (ClO2 + e- → ClO2 -). The redox potential (Eº) is relatively high as 0.95 V, therefore does not harm the human microbiome.

Preparing Chlorine Dioxide
(made from MMS (Miracle Mineral Solution) – Sodium Chlorite and Hydrochloric Acid)
The traditional chlorine dioxide, called MMS, was prepared as a solution using two components, Sodium chlorite solution (25% solution in water) and Hydrochloric Acid 4% solution. One drop of each of these solutions was placed in a 1.5ml sterile Eppendorf tube and left for 30 seconds to activate.

Initial Experiments
We began taking different chlorine dioxide concentrations based on the Traditional MMS and tested these concentrations with MRSA in solution for different times spanning from 30minutes to 30 seconds. The lowest concentration of Chlorine dioxide used to completely eradicate MRSA in these experiments was 0.5ppm, with an exposure time of 30 seconds. For all concentrations of chlorine dioxide ranging from 1 to 5ppm, and time of exposure from 30 minutes down to 30 seconds, the growth inhibition of the MRSA was 99.99% throughout all these experiments.

Conclusions
MRSA is versatile, and unpredictable. Its capacity for genetic adaptation and the serial emergence of successful epidemic strains cause it to remain a major threat to human health.

The persistently high mortality associated with invasive MRSA infection highlights the need for high-quality trials to determine optimal management for these patients. In these in vitro experiments, the efficacy of chlorine dioxide against MRSA has been shown consistently, with growth inhibition of 99.99% -100% in even the smallest concentrations of 0.5ppm.

Given the proven safety of chlorine dioxide in animal and human experiments to date, there is an urgent need for high-quality clinical trials to determine the efficacy of chlorine dioxide with individuals infected with MRSA today.

Such studies will fall upon the clinical community to conduct, beginning with individual clinical trials in different countries around the world, with the creation of a clinical trials network to collate all the data and develop safe and effective clinical protocols. Regarding safety, in one carefully designed experiment, it was found that the characteristic time necessary to kill a microbe is only a few milliseconds.

As ClO2 is a rather volatile compound its contact time (its staying on the treated surface) is limited to a few minutes.

While this stay is safely long enough (being at least 3 orders of magnitude longer than the killing time) to inactivate all bacteria on the surface of the organism, it is too short for ClO2 to penetrate deeper than a few tenths of a millimetre; thus, it cannot cause any real harm to an organism which is much larger than a bacterium.

There are also many testimonials of chlorine dioxide being used by human volunteers for the eradication of many infectious diseases, including malaria and HIV, by one of the pioneers in Africa, Jim Humble.

There is much controversy over this anecdotal evidence, but the number of witnesses giving testimonials cannot be ignored – politics and self-interests must be put aside and science must examine the evidence for the benefits of humanity

For clarification:
What is the difference between staph infection and MRSA?
Staph infections are any infections caused by the group of bacteria Staphylococcus aureus. MRSA is a specific type of staph infection that’s resistant to antibiotics. Staph infections, in general, are much more common and treatable than MRSA.

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Jim Humble

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