___ New revision 2023 ___

Kalcker Protocols

Disclaimer: The protocols presented here are general and based on actual experiences gained by users and volunteers, but do not represent medical advice. Each person is responsible for his or her body and should know what is best for himself or herself when lowering or increasing doses. All use of the protocols is the personal responsibility of the user. In the unlikely event of serious adverse effects, the dose should be reduced or use discontinued.

 

Currently, we no longer use CD (MMS), as it has become outdated with the passage of time. Its use can cause adverse effects such as diarrhea or vomiting, it also has a more acidic pH and contains sodium chlorite which can generate secondary reactions in the stomach. CDS (Chlorine dioxide solution = ClO2) on the other hand, contains only one component which is gas dissolved in water, has a neutral pH and does not contain chlorite salts. It is for these reasons, among others, that we have updated the protocols based on hundreds of thousands of volunteer user testimonials and reports over more than 10 years.

 

I thank all those who have helped save lives to create a better world!

___ General Facts:

How CDS is made easy:

Note: 250ml – 300ml of water is used in a 500ml container to achieve the CDS concentrate.

CDS in simple terms works by “electric shock” and not by cell intoxication.

 

To disinfect drinking water, 0.5 to 1 ml of CDS at 3000 ppm per liter of water is used depending on the degree of contamination. Milliliters are always used since drops are not precise.

 

For oral use always dilute (in water) the CDS concentrate (3000 ppm = 0.3%). The gas is best kept in a refrigerator as it evaporates at 11°C if in an open bottle. It is sensitive to sunlight or ultraviolet light. In a tightly closed dark brown glass bottle it does not evaporate and can be transported at normal temperatures without much deterioration. No metal containers or lids are used. CDS in simple terms works by “electrical discharge” and not by cellular intoxication.

 

CDS diffuses entirely in the stomach due to the temperature of 36.5оC (according to Fick’s first law) and enters the bloodstream, where it is broken down upon encountering pathogens or other inflammatory acids in the presence of oxygen, leaving less residue than a salt crystallite. It leaves no harmful residue in the body. Tests on laboratory mice have revealed that animals that took it throughout their lives lived up to 30% longer than the usual average.

 

CDS is also used as a disinfectant, as are alcoholic beverages. Both can be consumed in adequate amounts and concentrations since “it is the quantity that makes the toxicity”. According to EPA (U.S. Environmental Protection Agency) data, the toxicity of CDS is 292 mg/kg, which means that a 70 kg adult person would have to consume more than 7 liters of CDS concentrate daily for 14 days to experience toxicity. This is impossible.

 

It is important to note that CDS does not contain sodium chlorite salts (NaClONote: 250ml – 300ml of water is used in a 500ml container to achieve the CDS concentrate.

CDS in simple terms works by “electric shock” and not by cell intoxication.

To disinfect drinking water, 0.5 to 1 ml of CDS at 3000 ppm per liter of water is used depending on the degree of contamination. Milliliters are always used since drops are not precise.

 

For oral use always dilute (in water) the CDS concentrate (3000 ppm = 0.3%). The gas is best kept in a refrigerator as it evaporates at 11°C if in an open bottle. It is sensitive to sunlight or ultraviolet light. In a tightly closed dark brown glass bottle it does not evaporate and can be transported at normal temperatures without much deterioration. No metal containers or lids are used. CDS in simple terms works by “electrical discharge” and not by cellular intoxication.

 

CDS diffuses entirely in the stomach due to the temperature of 36.5оC (according to Fick’s first law) and enters the bloodstream, where it is broken down upon encountering pathogens or other inflammatory acids in the presence of oxygen, leaving less residue than a salt crystallite. It leaves no harmful residue in the body. Tests on laboratory mice have revealed that animals that took it throughout their lives lived up to 30% longer than the usual average.

 

CDS is also used as a disinfectant, as are alcoholic beverages. Both can be consumed in adequate amounts and concentrations since “it is the quantity that makes the toxicity”. According to EPA (U.S. Environmental Protection Agency) data, the toxicity of CDS is 292 mg/kg, which means that a 70 kg adult person would have to consume more than 7 liters of CDS concentrate daily for 14 days to experience toxicity. This is impossible.

 

It is important to note that CDS does not contain sodium chlorite salts (NaClONote: 250ml – 300ml of water is used in a 500ml container to achieve the CDS concentrate.

CDS in simple terms works by “electric shock” and not by cell intoxication.

To disinfect drinking water, 0.5 to 1 ml of CDS at 3000 ppm per liter of water is used depending on the degree of contamination. Milliliters are always used since drops are not precise.

 

For oral use always dilute (in water) the CDS concentrate (3000 ppm = 0.3%). The gas is best kept in a refrigerator as it evaporates at 11°C if in an open bottle. It is sensitive to sunlight or ultraviolet light. In a tightly closed dark brown glass bottle it does not evaporate and can be transported at normal temperatures without much deterioration. No metal containers or lids are used. CDS in simple terms works by “electrical discharge” and not by cellular intoxication.

 

CDS diffuses entirely in the stomach due to the temperature of 36.5оC (according to Fick’s first law) and enters the bloodstream, where it is broken down upon encountering pathogens or other inflammatory acids in the presence of oxygen, leaving less residue than a salt crystallite. It leaves no harmful residue in the body. Tests on laboratory mice have revealed that animals that took it throughout their lives lived up to 30% longer than the usual average.

 

CDS is also used as a disinfectant, as are alcoholic beverages. Both can be consumed in adequate amounts and concentrations since “it is the quantity that makes the toxicity”. According to EPA (U.S. Environmental Protection Agency) data, the toxicity of CDS is 292 mg/kg, which means that a 70 kg adult person would have to consume more than 7 liters of CDS concentrate daily for 14 days to experience toxicity. This is impossible.

 

It is important to note that CDS does not contain sodium chlorite salts (NaClO2). It is a gas dissolved in water and is not the same as chlorine dioxide produced by mixing two components (known as MMS), which can cause side reactions such as vomiting or diarrhea when used in high doses.

 

In the last 16 years, no interaction with other medications taken 1 hour apart has been observed. This is logical since the drugs do not usually react with oxygen and salt which are abundant in the body.

 

Venous blood gas measurements have shown a 30% increase in blood oxygen when taken orally and up to 50% when taken intravenously. This increase lasts approximately 2 hours. In addition, a reduction in acids (LAC) and an improvement in renal hepatic values (CREA) have been observed in contrast to the use of conventional drugs. Importantly, CDS cannot cause chemical burns due to its neutral pH. However, in high concentrations it can oxidize natural tissue colors, as can liquid oxygen.

 

There are no reported contraindications for pregnant or lactating women in the scientific literature or in the 16 years of use. To date, many positive reports on its biocompatibility have been published.


Contraindications : Do not inhale massively! Do not inhale for safety reasons (except by experienced physicians and in hospitals). However, CDS concentrate can be used on the skin as a spray. Do not use occlusive dressings with the concentrate to avoid irritation.


Known interactions: CDS reacts with antioxidants such as vitamin C (synthetic) and loses its efficacy. Therefore antioxidant pharmaceutical supplements used simultaneously should be avoided. No problems have been described with the ingestion of vegetables or other foods if taken half an hour apart.

 

Adverse effects: No serious adverse effects have been described after many years of use or in 3 peer-reviewed clinical trials with more than 3500 patients [Aparicio et.al, Insignares et.al, et.al, and others] and thousands of independent medical clinical reports. No adverse signs were observed in hepatic, renal and QT levels either. They even subsequently improved. The alleged deaths have turned out to be false upon examination by pathologists.

 

Side effects: According to current studies, only 6% of patients have experienced mild effects. These are considered to be transient healing crises (Herxheimer) and are very low. The effect is higher in people taking many medications (polymedicated, intoxicated by heavy metals and/or parasites) and is usually due to the accumulation of toxins. Mainly it has been observed in some cases an increase in urination, tiredness, dry mouth in high doses, mild headache, a slight increase in mucous activity, reflux and temporary increase of gases. All of these disappear after 7 days or upon discontinuation of use.

 

In intravenous clinical use, vein irritation (phlebitis) has been observed in some cases, especially when injected with an excessive concentration (> 80 ppm) or too rapid application, especially if the pH has not been previously adjusted with a bicarbonate solution to a pH of 7.4-7.6. This type of treatment is exclusively for physicians and researchers under the Helsinki protocol (AMA).

 

Storage: CDS concentrate is preferably stored in brown glass pharmaceutical bottles in the refrigerator. The cap should always be tightly closed to prevent the gas from escaping as it is very volatile. Temperature has not been shown to be a relevant factor in tightly closed bottles during transport. CDS is affected by ultraviolet light; therefore, it is advisable to store it away from the sun and preferably in dark or protected places. The yellow color is a good reference of the concentration and as long as it is yellow (sunflower oil color or greenish yellow) it is effective. If over time the color has lost intensity, just increase the amount appropriately for use. There is no scientific evidence that CDS affects PET plastic in the daily diluted concentration. Like other medicines and special substances, it should be stored out of the reach of children.

 

Types of CDS: There are two technical methods for producing chlorine dioxide: CDS and CDE. The first method uses a mixture of components, in which the precursor, sodium chlorite [NaClO2], is mixed with an acid and hydrochloric acid [HCL] or citric acid by capturing only the gas in a glass jar with water or by bubbling the gas through water via pumping. The second method is CDE (electrolytic chlorine dioxide), which produces chlorine dioxide through the process of electrolysis and preferably microfiltration. The latter does not contain traces of acid and is therefore more suitable for injection when its pH is adjusted correctly. The injectable solution in saline NaCl (0.9%) generally has a concentration of 50 ppm and is called CDI (chlorine dioxide for injection).

 

A frequently asked question is: What is the pH of CDS diluted in water and why is it important? Since chlorine dioxide is a gas, the pH of the dilute solution in protocol C is primarily determined by the pH of the water used. If slightly acidic water is used for dilution, then protocol C will be slightly acidic. If neutral water is used, the diluted solution will be in the neutral range; if slightly alkaline water is used, then the solution will be above pH 7.

 

As for oral intake, the pH value plays a secondary role since gastric juices are strongly acidic with a pH range between 1-2. Most beverages, such as lemonade or soft drinks with a pH of 3.5 or less, are more acidic than CDS itself.

 

Seawater can be added to Protocol C; however, this solution should always be prepared fresh and not allowed to stand for several days to avoid interactions with the many minerals present in seawater. It can be prepared independently and taken at the same time or after Protocol C.

Measurement: The CDS concentration can be measured in several ways:

1. measuring test strips (La motte 3002) (Range 10-500 ppm) requires dilutions.

2. Chemical titration (Iodometry) quantitative laboratory chemical analysis used to determine the concentration.

3. Spectrophotometry (Mara ClO2, wide range) (Range 10-4000 ppm) can determine the concentration and presence of substances other than ClO2. No reagents or consumables are required.

 

Strips are the easiest way but lack accuracy, titration (iodometry) is more accurate but complex at the same time, while spectrophotometry is the fastest and most accurate.). It is a gas dissolved in water and is not the same as chlorine dioxide produced by mixing two components (known as MMS), which can cause side reactions such as vomiting or diarrhea when used in high doses.

 

In the last 16 years, no interaction with other medications taken 1 hour apart has been observed. This is logical since the drugs do not usually react with oxygen and salt which are abundant in the body.

 

Venous blood gas measurements have shown a 30% increase in blood oxygen when taken orally and up to 50% when taken intravenously. This increase lasts approximately 2 hours. In addition, a reduction in acids (LAC) and an improvement in renal hepatic values (CREA) have been observed in contrast to the use of conventional drugs. Importantly, CDS cannot cause chemical burns due to its neutral pH. However, in high concentrations it can oxidize natural tissue colors, as can liquid oxygen.

 

There are no reported contraindications for pregnant or lactating women in the scientific literature or in the 16 years of use. To date, many positive reports on its biocompatibility have been published.


Contraindications : Do not inhale massively! Do not inhale for safety reasons (except by experienced physicians and in hospitals). However, CDS concentrate can be used on the skin as a spray. Do not use occlusive dressings with the concentrate to avoid irritation.


Known interactions: CDS reacts with antioxidants such as vitamin C (synthetic) and loses its efficacy. Therefore antioxidant pharmaceutical supplements used simultaneously should be avoided. No problems have been described with the ingestion of vegetables or other foods if taken half an hour apart.

 

Adverse effects: No serious adverse effects have been described after many years of use or in 3 peer-reviewed clinical trials with more than 3500 patients [Aparicio et.al, Insignares et.al, et.al, and others] and thousands of independent medical clinical reports. No adverse signs were observed in hepatic, renal and QT levels either. They even subsequently improved. The alleged deaths have turned out to be false upon examination by pathologists.

 

Side effects: According to current studies, only 6% of patients have experienced mild effects. These are considered to be transient healing crises (Herxheimer) and are very low. The effect is higher in people taking many medications (polymedicated, intoxicated by heavy metals and/or parasites) and is usually due to the accumulation of toxins. Mainly it has been observed in some cases an increase in urination, tiredness, dry mouth in high doses, mild headache, a slight increase in mucous activity, reflux and temporary increase of gases. All of these disappear after 7 days or upon discontinuation of use.

 

In intravenous clinical use, vein irritation (phlebitis) has been observed in some cases, especially when injected with an excessive concentration (> 80 ppm) or too rapid application, especially if the pH has not been previously adjusted with a bicarbonate solution to a pH of 7.4-7.6. This type of treatment is exclusively for physicians and researchers under the Helsinki protocol (AMA).

 

Storage: CDS concentrate is preferably stored in brown glass pharmaceutical bottles in the refrigerator. The cap should always be tightly closed to prevent the gas from escaping as it is very volatile. Temperature has not been shown to be a relevant factor in tightly closed bottles during transport. CDS is affected by ultraviolet light; therefore, it is advisable to store it away from the sun and preferably in dark or protected places. The yellow color is a good reference of the concentration and as long as it is yellow (sunflower oil color or greenish yellow) it is effective. If over time the color has lost intensity, just increase the amount appropriately for use. There is no scientific evidence that CDS affects PET plastic in the daily diluted concentration. Like other medicines and special substances, it should be stored out of the reach of children.

 

Types of CDS: There are two technical methods for producing chlorine dioxide: CDS and CDE. The first method uses a mixture of components, in which the precursor, sodium chlorite [NaClO2], is mixed with an acid and hydrochloric acid [HCL] or citric acid by capturing only the gas in a glass jar with water or by bubbling the gas through water via pumping. The second method is CDE (electrolytic chlorine dioxide), which produces chlorine dioxide through the process of electrolysis and preferably microfiltration. The latter does not contain traces of acid and is therefore more suitable for injection when its pH is adjusted correctly. The injectable solution in saline NaCl (0.9%) generally has a concentration of 50 ppm and is called CDI (chlorine dioxide for injection).

 

A frequently asked question is: What is the pH of CDS diluted in water and why is it important? Since chlorine dioxide is a gas, the pH of the dilute solution in protocol C is primarily determined by the pH of the water used. If slightly acidic water is used for dilution, then protocol C will be slightly acidic. If neutral water is used, the diluted solution will be in the neutral range; if slightly alkaline water is used, then the solution will be above pH 7.

 

As for oral intake, the pH value plays a secondary role since gastric juices are strongly acidic with a pH range between 1-2. Most beverages, such as lemonade or soft drinks with a pH of 3.5 or less, are more acidic than CDS itself.

 

Seawater can be added to Protocol C; however, this solution should always be prepared fresh and not allowed to stand for several days to avoid interactions with the many minerals present in seawater. It can be prepared independently and taken at the same time or after Protocol C.

 

Measurement: The CDS concentration can be measured in several ways:

1. measuring test strips (La motte 3002) (Range 10-500 ppm) requires dilutions.

2. Chemical titration (Iodometry) quantitative laboratory chemical analysis used to determine the concentration.

3. Spectrophotometry (Mara ClO2, wide range) (Range 10-4000 ppm) can determine the concentration and presence of substances other than ClO2. No reagents or consumables are required.

 

Strips are the easiest way but lack accuracy, titration (iodometry) is more accurate but complex at the same time, while spectrophotometry is the fastest and most accurate). It is a gas dissolved in water and is not the same as chlorine dioxide produced by mixing two components (known as MMS), which can cause side reactions such as vomiting or diarrhea when used in high doses.

 

In the last 16 years, no interaction with other medications taken 1 hour apart has been observed. This is logical since the drugs do not usually react with oxygen and salt which are abundant in the body.

 

Venous blood gas measurements have shown a 30% increase in blood oxygen when taken orally and up to 50% when taken intravenously. This increase lasts approximately 2 hours. In addition, a reduction in acids (LAC) and an improvement in renal hepatic values (CREA) have been observed in contrast to the use of conventional drugs. Importantly, CDS cannot cause chemical burns due to its neutral pH. However, in high concentrations it can oxidize natural tissue colors, as can liquid oxygen.

 

There are no reported contraindications for pregnant or lactating women in the scientific literature or in the 16 years of use. To date, many positive reports on its biocompatibility have been published.

 

Contraindications : Do not inhale massively! Do not inhale for safety reasons (except by experienced physicians and in hospitals). However, CDS concentrate can be used on the skin as a spray. Do not use occlusive dressings with the concentrate to avoid irritation.

 

Known interactions: CDS reacts with antioxidants such as vitamin C (synthetic) and loses its efficacy. Therefore antioxidant pharmaceutical supplements used simultaneously should be avoided. No problems have been described with the ingestion of vegetables or other foods if taken half an hour apart.

Adverse effects: No serious adverse effects have been described after many years of use or in 3 peer-reviewed clinical trials with more than 3500 patients [Aparicio et.al, Insignares et.al, et.al, and others] and thousands of independent medical clinical reports. No adverse signs were observed in hepatic, renal and QT levels either. They even subsequently improved. The alleged deaths have turned out to be false upon examination by pathologists.

 

Side effects: According to current studies, only 6% of patients have experienced mild effects. These are considered to be transient healing crises (Herxheimer) and are very low. The effect is higher in people taking many medications (polymedicated, intoxicated by heavy metals and/or parasites) and is usually due to the accumulation of toxins. Mainly it has been observed in some cases an increase in urination, tiredness, dry mouth in high doses, mild headache, a slight increase in mucous activity, reflux and temporary increase of gases. All of these disappear after 7 days or upon discontinuation of use.

 

In intravenous clinical use, vein irritation (phlebitis) has been observed in some cases, especially when injected with an excessive concentration (> 80 ppm) or too rapid application, especially if the pH has not been previously adjusted with a bicarbonate solution to a pH of 7.4-7.6. This type of treatment is exclusively for physicians and researchers under the Helsinki protocol (AMA).

 

Storage: CDS concentrate is preferably stored in brown glass pharmaceutical bottles in the refrigerator. The cap should always be tightly closed to prevent the gas from escaping as it is very volatile. Temperature has not been shown to be a relevant factor in tightly closed bottles during transport. CDS is affected by ultraviolet light; therefore, it is advisable to store it away from the sun and preferably in dark or protected places. The yellow color is a good reference of the concentration and as long as it is yellow (sunflower oil color or greenish yellow) it is effective. If over time the color has lost intensity, just increase the amount appropriately for use. There is no scientific evidence that CDS affects PET plastic in the daily diluted concentration. Like other medicines and special substances, it should be stored out of the reach of children.

 

Types of CDS: There are two technical methods for producing chlorine dioxide: CDS and CDE. The first method uses a mixture of components, in which the precursor, sodium chlorite [NaClO2], is mixed with an acid and hydrochloric acid [HCL] or citric acid by capturing only the gas in a glass jar with water or by bubbling the gas through water via pumping. The second method is CDE (electrolytic chlorine dioxide), which produces chlorine dioxide through the process of electrolysis and preferably microfiltration. The latter does not contain traces of acid and is therefore more suitable for injection when its pH is adjusted correctly. The injectable solution in saline NaCl (0.9%) generally has a concentration of 50 ppm and is called CDI (chlorine dioxide for injection).

 

A frequently asked question is: What is the pH of CDS diluted in water and why is it important? Since chlorine dioxide is a gas, the pH of the dilute solution in protocol C is primarily determined by the pH of the water used. If slightly acidic water is used for dilution, then protocol C will be slightly acidic. If neutral water is used, the diluted solution will be in the neutral range; if slightly alkaline water is used, then the solution will be above pH 7.

 

As for oral intake, the pH value plays a secondary role since gastric juices are strongly acidic with a pH range between 1-2. Most beverages, such as lemonade or soft drinks with a pH of 3.5 or less, are more acidic than CDS itself.

 

Seawater can be added to Protocol C; however, this solution should always be prepared fresh and not allowed to stand for several days to avoid interactions with the many minerals present in seawater. It can be prepared independently and taken at the same time or after Protocol C.

Measurement: The CDS concentration can be measured in several ways:

1. measuring test strips (La motte 3002) (Range 10-500 ppm) requires dilutions.

2. Chemical titration (Iodometry) quantitative laboratory chemical analysis used to determine the concentration.

3. Spectrophotometry (Mara ClO2, wide range) (Range 10-4000 ppm) can determine the concentration and presence of substances other than ClO2. No reagents or consumables are required.

 

Strips are the easiest way but lack accuracy, titration (iodometry) is more accurate but complex at the same time, while spectrophotometry is the fastest and most accurate.