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== Chlorine dioxide drinking water test as an indication of oxygen deficiency or increased oxygen demand by means of lactate determination in capillary blood before and after administration of the oxygen donor ClO<sub>2</sub>  (Chlorine dioxide) in drinking water ==
== [[Chlorine dioxide drinking water test as an indication of oxygen deficiency or increased oxygen demand by means of lactate determination in capillary blood before and after administration of the oxygen donor ClO2 (Chlorine dioxide) in drinking water|Chlorine dioxide drinking water test as an indication of oxygen deficiency or increased oxygen demand by means of lactate determination in capillary blood before and after administration of the oxygen donor ClO<sub>2</sub>  (Chlorine dioxide) in drinking water]] ==
by Dr. Peter Römer
by Dr. Peter Römer


Line 44: Line 44:
Energy in the human body is primarily produced as adenosine triphosphate (ATP) within the mitochondria, which are often referred to as the cell's power plants or energy factories. This intricate process predominantly utilizes glucose through a biochemical pathway known as aerobic glycolysis when oxygen is present. During this efficient metabolic process, approximately 36 moles of ATP are generated per mole of glucose consumed, alongside minimal lactate production, which typically occurs when oxygen levels are low or during intense physical activity. This remarkable ability of the mitochondria to convert energy from nutrients into a usable form is essential for maintaining cellular functions and overall bodily health.
Energy in the human body is primarily produced as adenosine triphosphate (ATP) within the mitochondria, which are often referred to as the cell's power plants or energy factories. This intricate process predominantly utilizes glucose through a biochemical pathway known as aerobic glycolysis when oxygen is present. During this efficient metabolic process, approximately 36 moles of ATP are generated per mole of glucose consumed, alongside minimal lactate production, which typically occurs when oxygen levels are low or during intense physical activity. This remarkable ability of the mitochondria to convert energy from nutrients into a usable form is essential for maintaining cellular functions and overall bodily health.


===== Impact of Oxygen Deficiency =====
= [[Avances en el tratamiento de enfermedades crónicas: La experiencia del Dr. Muratore Montesinos|Appeal by Dr. Muratore Montesinos from Argentina and his experiences with CDS]] =
In situations where oxygen availability is significantly limited—such as during the aging process, periods of intense physical exertion, or in the presence of chronic diseases like cardiac insufficiency—along with respiratory weakness, or conditions such as Long Covid—the body adapts by resorting to a metabolic pathway known as partially anaerobic glycolysis. This alternative metabolic pathway is crucial under these circumstances, as it allows the body to continue producing energy despite the lack of sufficient oxygen. However, it is important to note that this method of energy production is less efficient than aerobic respiration, yielding only 2 moles of ATP per mole of glucose consumed. Additionally, this process leads to the generation of lactic acid, which can be detected in the bloodstream as lactate. The accumulation of lactate can have various physiological implications and may contribute to feelings of fatigue and muscle discomfort.


==== Lactate Measurement Procedure ====
=== Advances in the treatment of chronic diseases: The experience of Dr. Muratore Montesinos ===
The Lactate Pro 2 measuring device from ARKRAY is employed for lactate measurements. The sensitivity of this device necessitates strict adherence to the testing protocol:
''<small>Translated from Spanish</small>''


# '''Pre-Test Preparations''':
'''Santiago del Estero, Argentina –'''
#* Avoid vitamin C and N-acetyl-cysteine (NAC) supplements for at least 2 hours prior to testing, as they may elevate lactate levels.
#* Abstain from eating for one hour before the test.
#* Avoid chlorine dioxide (CDL) intake, physical exertion, and stress, as these can also affect lactate levels.
# '''Test Conditions''':
#* The subject should remain seated and refrain from emotional discussions for 10 minutes before testing.
#* Wash the fingers of the test hand with soap and dry them.
#* At minute 9, rinse fingers with water to remove sweat containing lactate.
# '''Testing Steps''':
#* Open a test strip and insert it into the device 30 seconds before testing.
#* Use a lancet to puncture the finger, allowing a small drop of blood to form without squeezing excessively.
#* Position the test strip vertically to the blood drop until the device beeps, then wait 15 seconds to read the result.


===== Normal Values and Interpretation =====
In the constant pursuit of improving treatments for chronic and terminal illnesses, '''Dr. Luis Alberto Muratore Montesinos''', a surgeon specialized in emergencies and forensic diseases, implemented an innovative approach in his clinical practice. His work focused on treating complex conditions such as diabetic foot, diabetic ulcers, and diabetic vascular diseases, using a combination of advanced medical technologies and alternative treatments with excelent results.


* Normal lactate levels range from 0.5 to 2.2 mmol/L, with typical resting values between 0.5 and 1.0 mmol/L.
Unfortunately, Dr. Muratore recently passed away, leaving a significant void in the medical community. His dedication and passion for the health of his patients have been a beacon of hope for many, and his loss is deeply felt by colleagues and patients alike.
* A variation/accuracy of ±20% is expected with this test.


For lactate values exceeding 1.0 mmol/L, administration of 6 ml of 0.3% chlorine dioxide solution diluted in 200 ml of tap water is recommended. Re-testing after 5 minutes can indicate effectiveness if there is a reduction of >20%, suggesting relative oxygen deficiency in the body.
[[Avances en el tratamiento de enfermedades crónicas: La experiencia del Dr. Muratore Montesinos|Read article]]


==== Clinical Implications ====
== [[The Electro-Molecular Mechanism in Red Blood Cells: A Poloidal-Toroidal-Resultant Helix Field Model]] ==
In individuals with chronic conditions such as type 2 diabetes, lactate levels can be 2-3 times higher compared to healthy populations. Elevated lactate (>2.2 mmol/L) denotes clinical oxygen deficiency, while values between 1.0-2.2 mmol/L with a positive CDL test indicate subclinical oxygen deficiency.
[[File:Red Blood cell torus fields.jpg|thumb]]
<small>'''''by Dr.h.c. Andreas Ludwig Kalcker'''''</small>


==== Case Example ====
Red blood cells (RBCs) are vital components of the circulatory system, primarily responsible for transporting oxygen from the lungs to tissues and returning carbon dioxide to be exhaled. Their unique toroidal shape, akin to a donut, is not just a structural characteristic; it plays a crucial role in their functionality, particularly in navigating through narrow capillaries. The shape and stability of these cells are maintained by intricate electro-molecular forces, which are essential for understanding blood circulation and overall physiological health.
For instance, an individual aged 77 had a baseline lactate value of 2.9 mmol/L on July 23, 2023. After ingesting chlorine dioxide solution:


* '''5 minutes later''': Lactate decreased to 1.4 mmol/L (a reduction of >20%).
[[The Electro-Molecular Mechanism in Red Blood Cells: A Poloidal-Toroidal-Resultant Helix Field Model|Read Article]]
* '''10 minutes later''': Further decrease to 1.2 mmol/L.


This suggests an improvement in oxygen availability, indicating that further administration of chlorine dioxide may be beneficial.
== [https://www.sciencedirect.com/science/article/pii/S0891584923005014 Toxicity of the spike protein of COVID-19 is a redox shift phenomenon: A novel therapeutic approach] ==
''Dr. Laurent Schwartz a, Manuel Aparicio-Alonso b, Marc Henry c, Miroslav Radman d, Romain Attal e, Ashraf Bakkar f''


==== Conclusion ====
===== ABSTRACT =====
Chlorine dioxide, when used within specified non-toxic doses, is believed to enhance oxygen partial pressure throughout the body and possesses potential deacidifying and anti-infectious properties. Understanding lactate dynamics and oxygen availability is crucial for managing chronic conditions and optimizing physical performance.
We previously demonstrated that most diseases exhibit a form of anabolism due to mitochondrial impairment: in cancer, a daughter cell is formed; in Alzheimer’s disease, amyloid plaques; and in inflammation, cytokines and lymphokines.


==== References ====
Infection by Covid-19 follows a similar pattern. Long-term effects include redox shifts and cellular anabolism as a result of the Warburg effect and mitochondrial dysfunction. This unrelenting anabolism leads to cytokine storms, chronic fatigue, chronic inflammation, and neurodegenerative diseases. Drugs such as lipoic acid and methylene blue have been shown to enhance mitochondrial activity, relieve the Warburg effect, and increase catabolism. Similarly, combining methylene blue, chlorine dioxide, and lipoic acid may help reduce the long-term effects of Covid-19 by stimulating catabolism.


# Flexikon.doccheck.com/de/Laktat
[https://www.sciencedirect.com/science/article/pii/S0891584923005014 Read full article]
# Dariusalamouti.de/schoenheitslexikon/l/laktat-und-laktatschwelle
 
# Harthum, T. Analysis of Exercise-Dependent Blood Lactate Concentration during Outpatient Cardiac Rehabilitation (Master's Thesis, University of Vienna, 2015).
== [[How many Oxygen molecules are in a CDS protocol?]] ==
# Fitbook.de/fitness/was-ist-laktat-1
<small>'''''by Dr.h.c. Andreas Ludwig Kalcker'''''</small>
# Gesundheits-lexikon.com/labormedizin-Labordiagnostik/sonstiges/Laktat.html
 
# Medicoconsult.de/laktat/
We know that CDS, or Chlorine Dioxide Solution, liberates oxygen in the bloodstream, but how much oxygen is actually released? Is it truly significant for our health and well-being? Although this inquiry is primarily a mathematical calculation, exploring these figures might aid in understanding the remarkable healing phenomena we are observing with the use of CDS. The impact of oxygen liberation on various bodily functions and healing processes can provide valuable insights into its effectiveness and potential benefits. This exploration could lead to a deeper comprehension of the underlying mechanisms at play when using CDS in therapeutic applications. This Article explain more....
# Flexikon.doccheck.com/de/Laktat
 
# ScienceDirect.com/science/article/pii/S2095254620300193
[https://www.sciencedirect.com/science/article/pii/S0891584923005014 Read full article]
# Supplement to the Lactate Pro 2 Test Strip
 
# Senslab.de Sources of Error and Notes on Sampling for Lactate Measurements
= [[CDS redox signaling|CDS a redox signaling molecule ?]] =
# Federal Environment Agency Guidelines on Drinking Water Treatment Substances (Status January 2023).
[[File:Redox signaling.jpg|thumb|Source: onlinelibrary.wiley.com]]
 
 
CDS functions as a selective oxidizing agent through redox (reduction-oxidation) reactions. What makes it particularly interesting is its unique molecular behavior: it has an oxidation potential of 0.95V, which means it's strong enough to oxidize harmful pathogens but gentle enough not to damage healthy cells. The molecule acts as an electron acceptor in biochemical reactions, similar to how our body's natural redox signaling molecules work.
 
The key characteristics that define CDS as a redox signaling molecule include:
 
1. Its ability to participate in electron transfer processes
 
2. The selective oxidation mechanism
 
3. Its role in cellular signaling pathways
 
4. The capacity to influence the redox state of biological systems
 
==== Chlorine Dioxide (ClO₂): Unraveling Redox Signaling Mechanisms ====
Chlorine dioxide (ClO₂), an established oxidizing agent, has gained attention for its potential therapeutic applications due to its unique redox signaling properties. This article explores the biochemical mechanisms underlying ClO₂’s action in biological systems, particularly its role in redox signaling. By understanding these mechanisms, we can open new perspectives for ClO₂ as a therapeutic agent in various medical fields, including antimicrobial treatment and chronic disease management.
 
Chlorine dioxide (ClO₂) is a potent oxidizing agent known for its effectiveness in disinfection and water treatment. Recent studies have suggested that ClO₂ possesses significant therapeutic potential due to its ability to selectively oxidize pathogens while sparing healthy cells. The key to its therapeutic efficacy lies in its interaction with redox signaling pathways. This article examines these interactions and discusses the implications for clinical applications.
 
 
[[CDS redox signaling|Read Article]]

Latest revision as of 18:16, 1 November 2024

More of our research you can find here...

What do D-dimer values and ferritin indicate about the condition of the body?

D-dimer values and ferritin levels are important biomarkers that can provide significant insights into the condition of the body.

D-dimer is a small protein fragment that is present in the blood after a blood clot dissolves. Elevated levels of D-dimer can indicate that there is an increased amount of clot formation and breakdown in the body, which may suggest conditions such as deep vein thrombosis (DVT), pulmonary embolism, or disseminated intravascular coagulation (DIC). However, elevated D-dimer levels can also be seen in other situations such as infection, inflammation, or recent surgery, so they must be interpreted in conjunction with clinical findings and other diagnostic tests.

Ferritin, on the other hand, is a protein that stores iron in the body and releases it in a controlled fashion, playing a crucial role in iron metabolism. Low ferritin levels typically indicate low iron stores, which can lead to iron deficiency anemia, causing symptoms like fatigue, weakness, and shortness of breath. Conversely, high ferritin levels may indicate an excess of iron in the body or inflammation, as ferritin is an acute-phase reactant that can increase in response to inflammatory conditions or infections.

Together, D-dimer and ferritin levels can provide valuable information regarding clotting status and iron metabolism, helping healthcare providers assess and manage various medical conditions effectively.

Link

Known types list of Cancer

There are several known types of cancer that affect different parts of the body. Each type has its own characteristics and treatment options. Some of the most common types include breast cancer, lung cancer, prostate cancer, colorectal cancer, skin cancer, and leukemia. Additionally, there are other less common types such as pancreatic cancer, ovarian cancer, liver cancer, and kidney cancer. Each of these cancers can vary significantly in their symptoms, risk factors, and prognosis. Understanding the specific type of cancer is crucial for determining the most effective treatment strategies and improving patient outcomes.

Link

Efficacy list of ClO2 against known Pathogens

The efficacy of chlorine dioxide (ClO2) against known pathogens has been studied extensively in various settings, demonstrating its effectiveness as a powerful antimicrobial agent. Research indicates that ClO2 is capable of inactivating a wide range of bacteria, viruses, and fungi. This includes common pathogens such as Escherichia coli, Salmonella spp., Listeria monocytogenes, and Staphylococcus aureus, among others.

In addition to its bactericidal properties, ClO2 has shown significant antiviral activity against viruses such as influenza and norovirus, making it an important consideration for infection control in both healthcare and food processing environments. Studies have consistently illustrated that ClO2 operates effectively over a range of concentrations and exposure times, allowing for versatility in its application.

Furthermore, the mode of action of chlorine dioxide involves the disruption of cellular processes and the oxidation of essential biomolecules, which contributes to its broad-spectrum efficacy. As a result, ClO2 is being increasingly utilized in various disinfection protocols, especially in areas where controlling pathogens is crucial for public health and safety.

Link

Report on CDS by Dr. Luis Prieto Valiente, PhD, is a professor at UCAM (Catholic University of Murcia) using Chlorine Dioxide as an “unproven intervention”

Report by Dr. Luis Prieto Valiente, PhD,

an esteemed professor of Statistical Analysis and Research Methodology, regarding the significance, or lack thereof, of employing Chlorine Dioxide as an “unproven intervention” in the treatment of COVID-19 infections. This report aims to critically evaluate the existing evidence surrounding the use of Chlorine Dioxide, assessing its potential benefits and drawbacks in the context of the ongoing pandemic. The analysis will explore various studies, clinical trials, and expert opinions to determine whether this substance should be considered a viable option for patients suffering from COVID-19 or if it poses more risks than advantages.

link full article


Chlorine dioxide drinking water test as an indication of oxygen deficiency or increased oxygen demand by means of lactate determination in capillary blood before and after administration of the oxygen donor ClO2 (Chlorine dioxide) in drinking water

by Dr. Peter Römer

Physiological Basis of Lactate Production and Measurement

Energy Production in the Body

Energy in the human body is primarily produced as adenosine triphosphate (ATP) within the mitochondria, which are often referred to as the cell's power plants or energy factories. This intricate process predominantly utilizes glucose through a biochemical pathway known as aerobic glycolysis when oxygen is present. During this efficient metabolic process, approximately 36 moles of ATP are generated per mole of glucose consumed, alongside minimal lactate production, which typically occurs when oxygen levels are low or during intense physical activity. This remarkable ability of the mitochondria to convert energy from nutrients into a usable form is essential for maintaining cellular functions and overall bodily health.

Appeal by Dr. Muratore Montesinos from Argentina and his experiences with CDS

Advances in the treatment of chronic diseases: The experience of Dr. Muratore Montesinos

Translated from Spanish

Santiago del Estero, Argentina –

In the constant pursuit of improving treatments for chronic and terminal illnesses, Dr. Luis Alberto Muratore Montesinos, a surgeon specialized in emergencies and forensic diseases, implemented an innovative approach in his clinical practice. His work focused on treating complex conditions such as diabetic foot, diabetic ulcers, and diabetic vascular diseases, using a combination of advanced medical technologies and alternative treatments with excelent results.

Unfortunately, Dr. Muratore recently passed away, leaving a significant void in the medical community. His dedication and passion for the health of his patients have been a beacon of hope for many, and his loss is deeply felt by colleagues and patients alike.

Read article

The Electro-Molecular Mechanism in Red Blood Cells: A Poloidal-Toroidal-Resultant Helix Field Model

by Dr.h.c. Andreas Ludwig Kalcker

Red blood cells (RBCs) are vital components of the circulatory system, primarily responsible for transporting oxygen from the lungs to tissues and returning carbon dioxide to be exhaled. Their unique toroidal shape, akin to a donut, is not just a structural characteristic; it plays a crucial role in their functionality, particularly in navigating through narrow capillaries. The shape and stability of these cells are maintained by intricate electro-molecular forces, which are essential for understanding blood circulation and overall physiological health.

Read Article

Toxicity of the spike protein of COVID-19 is a redox shift phenomenon: A novel therapeutic approach

Dr. Laurent Schwartz a, Manuel Aparicio-Alonso b, Marc Henry c, Miroslav Radman d, Romain Attal e, Ashraf Bakkar f

ABSTRACT

We previously demonstrated that most diseases exhibit a form of anabolism due to mitochondrial impairment: in cancer, a daughter cell is formed; in Alzheimer’s disease, amyloid plaques; and in inflammation, cytokines and lymphokines.

Infection by Covid-19 follows a similar pattern. Long-term effects include redox shifts and cellular anabolism as a result of the Warburg effect and mitochondrial dysfunction. This unrelenting anabolism leads to cytokine storms, chronic fatigue, chronic inflammation, and neurodegenerative diseases. Drugs such as lipoic acid and methylene blue have been shown to enhance mitochondrial activity, relieve the Warburg effect, and increase catabolism. Similarly, combining methylene blue, chlorine dioxide, and lipoic acid may help reduce the long-term effects of Covid-19 by stimulating catabolism.

Read full article

How many Oxygen molecules are in a CDS protocol?

by Dr.h.c. Andreas Ludwig Kalcker

We know that CDS, or Chlorine Dioxide Solution, liberates oxygen in the bloodstream, but how much oxygen is actually released? Is it truly significant for our health and well-being? Although this inquiry is primarily a mathematical calculation, exploring these figures might aid in understanding the remarkable healing phenomena we are observing with the use of CDS. The impact of oxygen liberation on various bodily functions and healing processes can provide valuable insights into its effectiveness and potential benefits. This exploration could lead to a deeper comprehension of the underlying mechanisms at play when using CDS in therapeutic applications. This Article explain more....

Read full article

CDS a redox signaling molecule ?

Source: onlinelibrary.wiley.com


CDS functions as a selective oxidizing agent through redox (reduction-oxidation) reactions. What makes it particularly interesting is its unique molecular behavior: it has an oxidation potential of 0.95V, which means it's strong enough to oxidize harmful pathogens but gentle enough not to damage healthy cells. The molecule acts as an electron acceptor in biochemical reactions, similar to how our body's natural redox signaling molecules work.

The key characteristics that define CDS as a redox signaling molecule include:

1. Its ability to participate in electron transfer processes

2. The selective oxidation mechanism

3. Its role in cellular signaling pathways

4. The capacity to influence the redox state of biological systems

Chlorine Dioxide (ClO₂): Unraveling Redox Signaling Mechanisms

Chlorine dioxide (ClO₂), an established oxidizing agent, has gained attention for its potential therapeutic applications due to its unique redox signaling properties. This article explores the biochemical mechanisms underlying ClO₂’s action in biological systems, particularly its role in redox signaling. By understanding these mechanisms, we can open new perspectives for ClO₂ as a therapeutic agent in various medical fields, including antimicrobial treatment and chronic disease management.

Chlorine dioxide (ClO₂) is a potent oxidizing agent known for its effectiveness in disinfection and water treatment. Recent studies have suggested that ClO₂ possesses significant therapeutic potential due to its ability to selectively oxidize pathogens while sparing healthy cells. The key to its therapeutic efficacy lies in its interaction with redox signaling pathways. This article examines these interactions and discusses the implications for clinical applications.


Read Article