Monday, April 27, 2020
Chlorine Dioxide against Coronavirus:
This is one that i was not aware of as a useful protocol. Its potential effectiveness is a given while its application is problematic demanding real care.
With the present emergency, it is been investigated on an emergency basis..
All of a sudden we no longer need to investigate designer label organics to accomplish simple solved problems. That this is been used to cleanse donated blood from HIV should tell us all we need to know.
Chlorine Dioxide against Coronavirus: a revolutionary, simple and effective approach
DOI: 10.13140/RG.2.2.23856.71680 License CC BY-NC-SA 4.0
Project: Toxicity study of chlorine dioxide in solution (CDS) ingested orally Andreas Ludwig Kalcker co. : Liechtensteiner Verein für Wissenschaft und Gesundheit LI-9491 Ruggel www.lvwg.org E-mail firstname.lastname@example.org
Chlorine dioxide (ClO2) has been used for over 100 years to combat all types of bacteria, viruses and fungi successfully. It acts as a disinfectant, since in its mode of action it turns out to be an oxidant. [1# BiologicalEfficacyList ]
It is very similar to the way our own body acts, for example in phagocytosis, where an oxidation process is used to eliminate all kinds of pathogens. Chlorine dioxide (ClO2) is a yellowish gas that, to date, has not been introduced into the conventional pharmacopoeia as an active ingredient, although it is used on a mandatory basis to disinfect and preserve blood bags for transfusions. [2# Alcide studies on blood disinfection]
It is also used in most bottled waters suitable for consumption, since it does not leave toxic residues; besides, it is a gas that is very soluble in water and evaporates from 11 ºC.
The recent Covid-19 coronavirus pandemic demands urgent solutions with new approaches. Therefore, chlorine dioxide (ClO2) in low-dose aqueous solution promises to be an ideal, rapid and effective solution. All too often, the solution is in the simplest of ways.
The approach is as follows: on the one hand we know that viruses are absolutely sensitive to oxidation and on the other hand, if it works in human blood bags against viruses such as HIV and other pathogens, why would it not work organically against the coronavirus?
1. Chlorine dioxide removes viruses through the process of selective oxidation in a very short time. It does this by denaturing the capsid proteins, and then oxidizes the genetic material of the virus, disabling it. The application of chlorine dioxide (ClO2) orally or even parenterally is a different approach that has been studied by Andreas Ludwig Kalcker for more than thirteen years with a result of three pharmaceutical patents for parenteral use.
It can be produced by any pharmacy as an extemporaneous preparation and has been used in a similar form as (DAC N-055) in the old German Drug Codex as "Sodium Chlorosum" since 1990.
So far, only vaccine based solutions have been proposed, resulting in extremely slow and risky processes, as they always require sufficient energy reserves that a body affected with the disease cannot provide.
The great advantage of chlorine dioxide (ClO2) is that it works for any viral subspecies and there is no possible resistance to this type of oxidation (let's not forget that this substance has been used for 100 years in waste water without generating any resistance). [#3 Investigation on virucidal activity of chlorine dioxide]
2. There is already scientific evidence that chlorine dioxide is effective on coronavirus SARS-CoV-2, a base virus of COVID-19 [SARS Fact Sheet, National Agricultural Biosecurity Center, Kansas State University] and the Coronavirus family in general - [Chlorine Dioxide, Part 1 A Versatile, High-Value Sterilant for the Biopharmaceutical Industry, Barry Wintner, Anthony Contino, Gary O'Neill. BioProcess International DECEMBER 2005.]
It has also been shown to be effective in human coronavirus [#4 BASF Aseptrol document] and in animals such as dogs, known as canine respiratory coronavirus, or cats, including the feline enteric coronavirus (FECV) and the better known feline infectious peritonitis virus (FIPV), since it denatures the capsules by oxidation inactivating the virus in a short time [2-log 4.2 / 4-log 25.
1 Source USEPA 2003 WHO Guidelines for drinking water Quality]. Pharmacology. 2016;97(5-6):301-6. doi: 10.1159/000444503. Epub 2016 Mar 1.
Inactivation of Airborne Bacteria and Viruses Using Extremely Low Concentrations of Chlorine Dioxide Gas.
It should be noted that chlorine dioxide for ingestion is a new antiviral approach because it is an oxidant and manages to eliminate any subspecies or variations of viruses by combustion.[6#ClO2 is a size selective biocide]
Given the emergency situation in which we currently find ourselves with Covid-19, the oral use of ClO2 is considered immediately through a protocol already known and used.
3. Toxicity: The biggest problems with drugs in general are due to their toxicity and side effects.
New studies show its feasibility.[7#New Clo2 safety evaluation 2017] Although the toxicity of chlorine dioxide is known for mass inhalation, there is not a single clinically proven death even at high doses from oral ingestion.[8#Controlled Clinical Evaluations of Clo2 in Man]
The LD50 is considered to be 292 mg per kilogram for 14 days, where its equivalent in a 50 kg adult would be 15,000 mg per two weeks of a gas dissolved in water (something almost impossible). .[9# toxicity of clo2 and clorite ions]
The sub toxic oral doses used are around 50 mg dissolved in 100 ml of water 10 times a day which is equivalent to 0.5 g per day. (and therefore only 1/30 of the above LD50 dose of 15 g ClO2 per day).
Chlorine dioxide dissociates, it decomposes in the human body in a few hours into an insignificant amount of common salt (NaCL) and oxygen(O2) within the human body. Measurements of venous blood gas have indicated that the affected patient's lung oxygenation capacity is substantially improved. Ejemplo con Voluntaria y aplicación I.V. de 500 ml con 50 ppm de concentración