Introduction

MRET (Molecular Resonance Effect Technology) water, developed over 30 years ago, is a biophysically activated water utilizing patented technology known for its aquaporin-simulated properties and potential health benefits. This technology restructures water molecules into a Single File Alignment (SFA), enhancing intra-cellular hydration with up to 85% bioavailability. It strengthens hydrogen bonding, thereby improving nutrient delivery and the removal of cellular waste. The enhanced superliquidity of MRET water improves cellular membrane functions, allowing it to penetrate pores and capillaries more effectively. This is achieved by widening the bond angle from 104.5 to 114.5 degrees, which decreases the water's viscosity by 300 to 500 times. This summary provides a comprehensive introduction and comparison of MRET water with other types available in the consumer market, focusing on its history, biomechanism, benefits, applications, and advantages.

History

MRET (Molecular Resonance Effect Technology) was developed by Dr. Igor Smirnov to replicate the natural electromagnetic fields found in specific geographic regions known for their health benefits. Notably, after the 1992 Chernobyl disaster, specific water treatments were observed to mitigate the effects of radiation, which significantly contributed to the development and validation of MRET technology.

Bio Mechanic and How It Works

MRET (Molecular Resonance Effect Technology) water is produced through a non-chemical process that utilizes electromagnetic fields to restructure water at the molecular level. This restructuring is based on molecular resonance principles, where water is exposed to specific frequencies that alter its molecular composition, making it similar to intracellular water. This transformation enhances the water's bioavailability and supports cellular functions, addressing fundamental human health issues such as intracellular dehydration. Intracellular dehydration is a common cause of oxygen inefficiency, which leads to ineffective nutrient delivery to the cells.

Benefits

1. Enhanced Cellular Hydration: MRET water has reduced viscosity and surface tension, allowing it to be absorbed by cells more efficiently than regular water. This improved hydration can enhance cellular functions and energy levels.

2. Enhanced Detoxification: MRET water has shown significant potential in enhancing the detoxification process within the body by improving the efficiency of the proton pump activity in cells.

3. Antioxidant Properties: Studies have shown that MRET water reduces levels of free radicals, which are harmful to cellular health. This reduction can enhance the body's homeostasis and metabolism.

4. Immune Support: Research indicates that MRET water can prevent the decrease in white blood cell count typically observed after chemotherapy, thereby supporting the immune system.

5. Supporting Chemo and Cancer Treatment: Experiments with MRET water have demonstrated its ability to inhibit tumor cell growth in animal models and in vitro studies with HeLa cancer cells, suggesting potential applications in cancer therapy.

6. Antiviral and Antibacterial Properties: MRET water has been found to inhibit the morphology of pathogenic microorganisms, including potential effects on inhibiting the life cycle of viruses such as coronavirus.

7. Longevity: Studies on mice have shown that regular consumption of MRET water can increase lifespan, highlighting its potential anti-ageing benefits. This is a possible result of improved hydration that supports nutrient delivery to the cells.

Applications

1. Wellness, Sports, and Healthcare: MRET water is used to support hydration, detoxification, and nutrient delivery in healthcare settings, particularly for patients undergoing treatments like Chemotherapy, Dialysis, and Wound Recovery.

2. Weight Loss and Daily Consumption: It is marketed as a superior hydration option for daily consumption, enhancing overall well-being and energy levels.

3. Radiation Protection: MRET water is being studied as a dietary countermeasure to mitigate acute radiation risks, particularly in space exploration contexts.

4. Antibacterial Applications: The use of MRET water in treating bacterial infections, such as those caused by Staphylococcus aureus, has shown promising results in both in vivo and in vitro studies.

5. Agriculture: Due to its enhanced hydrating properties, MRET water is also used in agriculture to improve the growth and health of plants.

Advantages

1. Bioavailability: The structural similarity of MRET water to intracellular water enhances its absorption and utilization by the body.

2. Non-Chemical Process: Unlike other water treatments that may involve chemicals, MRET water is produced purely physically, making it safer and more natural.

3. Long-Term Stability: MRET water retains its beneficial properties for an extended period, even at room temperature, making it convenient for storage and use.

4. Enhanced Cellular Hydration: Bio-impedance analysis has shown that MRET water improves extracellular and intracellular water exchange, promoting better cellular hydration and function.

5. Tumour Resistance: Studies have shown that MRET water significantly inhibits tumour growth and increases the lifespan of tumour-bearing animals, demonstrating a notable anti-tumour effect.

6. Improved Detoxification: MRET water enhances the detoxification process by improving the proton pump activity of cells, thereby aiding in removing toxins from the body.

Conclusion

MRET water stands out in the consumer market due to its unique production process and the significant health benefits it offers. By enhancing hydration, reducing free radicals, supporting the immune system, and potentially aiding in cancer treatment, MRET water presents a promising alternative to conventional water treatments. Its applications in healthcare, daily consumption, agriculture, and radiation protection further highlight its versatility and potential impact on health and well-being.

References

7. Smirnov I.V., Vysotskii V.I., Kornilova A.A. Introduction to the Biophysics of Activated Water. Universal Publishers, 2005.

8. Smirnov I.V. Activated Water. Electronic Journal of Biotechnology, 6(2), 2003.

9. Fisher H.W., Gauvin C., Neeser K.J., Smirnov I.V. Bio Impedance Analysis to Determine the Extracellular/Intracellular Water Exchange of MRET Activated Water Compared to Control Water. 2020.

10.Smirnov I.V. MRET Activated Water and Its Successful Application for Prevention Treatment and Enhanced Tumor Resistance in Animal Models. 2022.

11.Smirnov I.V. MRET Treated Water as A Possible Agent for Inhibition of Coronavirus Life Cycle: A Review. Journal of Biotechnology and Bioengineering, 2020.

12.Smirnov I.V. The Effect of MRET Activated Water on Staphylococcal Infection in Vivo in Animal Model and In Vitro on the Culture of Staphylococcus Aureus. Journal of Ecology and Natural Environment, 2009.

13.Smirnov I.V. Improved Detoxification and Physiological Effects of MRET Activated Water. Explore Magazine, 2005.

14.Smirnov I.V. The Effect of MRET Activated Water on Callus Tissues. International Journal of Agronomy and Plant Production, 2012.

15.Smirnov I.V. The Comparative Analysis of the Effect of MRET Treatment on Morphology of HeLa Cancer Cells and PBMC Normal Cells. American Journal of Scientific and Industrial Research, 2010.

16.Smirnov I.V. The Physiological Effect of MRET Activated Water on Patients Suffering from AIDS. Explore: The Journal of Science and Healing, 2006.

17.Smirnov I.V. The Effect of MRET Activated Water on Saccharomyces Cerevisiae Culture. Journal of Biotechnology and Bioengineering, 2010.

18.Smirnov I.V. MRET Activated Water and Its Effects on Immune System Stimulation. Journal of Biomedical Science and Engineering, 2018.