Chlorine Dioxide Solution (CDS)
CDS is proving to be as effective in most cases, and even more effective in some, as MMS. It is much easier for most people to take because the horrible taste is virtually eliminated, and most people can take considerably more CDS than MMS before any herxheimer reactions kick in, ie nausea, diarrhea, headache, vomiting.
So What Is It?
In a nutshell, it's MMS1 infused into distilled water.
At the time of writing this there are two basic concepts of what the CDS concentration would be after the infusion process takes place.
One method generates a concentrated solution which, for standardisation purposes, we'll say is 3,000 ppm (parts per million).
This requires 2 ml of solution in a half glass of water (125ml or 4oz) to equate to a 3 drop dose of MMS1
The second method is to make a 'ready-to-use' solution of approximately 25 to 30 ppm.
A glass (250ml or 8oz) of this solution also equates to a 3 drop dose of MMS1.
Mathematically this is not 100% accurate but there's no need to worry about minor discrepancies.
One method generates a concentrated solution which, for standardisation purposes, we'll say is 3,000 ppm (parts per million).
This requires 2 ml of solution in a half glass of water (125ml or 4oz) to equate to a 3 drop dose of MMS1
The second method is to make a 'ready-to-use' solution of approximately 25 to 30 ppm.
A glass (250ml or 8oz) of this solution also equates to a 3 drop dose of MMS1.
Mathematically this is not 100% accurate but there's no need to worry about minor discrepancies.
How to Make it
Watch the videos below and make a note of the amount of MMS to use depending upon your requirements.
The first 2 videos are Andreas Kalcker making 3,000 ppm solutions
The 3rd video shows Jim Humble making a ready-to-use solution
The first 2 videos are Andreas Kalcker making 3,000 ppm solutions
The 3rd video shows Jim Humble making a ready-to-use solution
Step 1
Activate MMS in the normal way (equal parts of sodium chlorite mixed with 50% citric acid solution) in a bottle / jar / container
Step 2
A tube attached to the container provides a path for the resultant chlorine dioxide gas to 'gas off' into the distilled water
In the 2nd and 3rd videos there is a step 3 where the gas is forced through the tube and into the distilled water.
This can be done by utilising an aquarium pump (video 2) or by using breath & blowing it through (video 3).
Full credit goes to Andreas Kalcker for creating this and teaching his simple method for anyone to make it at home.
This can be done by utilising an aquarium pump (video 2) or by using breath & blowing it through (video 3).
Full credit goes to Andreas Kalcker for creating this and teaching his simple method for anyone to make it at home.