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Spin Radiation Organizer Technology

Patented Worldwide

Electromagnetic Contamination Neutralization Composition Device and Method

US US9820418B1 · Issued Nov 14, 2017

System for monitoring and evaluating electromagnetic contamination by source


US US10145875B1 · Issued Dec 4, 2018

Electromagnetic Contamination Neutralization Formulation Material of wide application for all technologies


US US10058017B1 · Issued Aug 21, 2018

Electromagnetic Contamination Neutralization Composition Device and Method


CO NC2018/0011077 · Issued Oct 16, 2018

Electromagnetic Contamination Neutralization Composition Device and Method


AU 2017237179 · Issued Mar 5, 2020

エレクトロクリーンフィルター技術

- Nanocomposite Material for Electromagnetic Contamination


JP 2019-500757 · Issued Jul 7, 2020

Electromagnetic Contamination Neutralization Composition Device and Method


AE P6001318/2018 · Issued Sep 23, 2018

전자기
방사선
필터
솔루션
- Electromagnetic Radiation Solution

KR 10-2048553 · Issued Nov 19, 2019

Procede, dispositif et composition de neutralisation de contamination electromagnetique


CA 3,018,175 · Issued Jul 22, 2021

The electromagnetic problem lies in the fundamental disturbance that is created by the artificial polarization⁴ of electromagnetic waves when they are modulated for the transmission of messages in telecommunications.

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In conclusion, while shielding may seem like a simple and effective solution to controlling electrosmog, it can actually increase interference and disrupt the natural flow of EM waves in the body. It is not a recommended approach for addressing this issue

The science behind the SPIRO® material

In June 2012, it was news that scientists from JASRI (Japan Synchrotron Radiation Research Institute), in cooperation with the Japan Advanced Institute of Science and Technology (JAIST) and other institutions, revealed a new magnetic property of the well-known metal gold (Au)⁵. The implications of this discovery were hugely important and shed light on the research that NOXTAK’s founder had been carrying out, as it promised to be a viable application for the problem of artificial polarization in electromagnetic waves for telecommunications and alternating current (AC).

Conventionally, up to that time, gold (Au) had been understood to be a diamagnetic material and was not considered to have strong magnetism, meaning that it can not act as a magnet on its own. However, the results of the studies carried out by the scientists mentioned above, observed other properties when gold (Au) was manufactured in the form of nanoparticles, noting that it had a strong magnetism, which drew attention from both academic and practical points of view. 

This is how the NOXTAK research project concluded that if natural properties of great magnetism in the nanometric dimension could be exploited stably without transferring said property to the macroscopic dimension, then it could be a viable application to solve the fundamental problem of artificial polarization of the particles’ spins in the electromagnetic radiation without affecting the trajectory of fields or interfering in any way with telecommunications. In this way, the NOXTAK project ventured into Applied Nanomagnetism, a branch of Nanotechnology.

Nanotechnology is the term given to those areas of science and engineering where phenomena that take place on the nanometer scale (below 100 nm) are used in the design, characterization, production, and application of materials, structures, devices, and systems. A nanometer is one billionth of a meter: ten times the diameter of a hydrogen atom. The diameter of a human hair is, on average, 80,000 nanometers.

Particles whose size is on that tiny tiny scale, called the nanometer scale, are called nanoparticles. Nanoparticles have brought a wealth of long-awaited discoveries in materials science and their potential applications. One of the applications is to take advantage of the magnetic behavior of these particles, this branch is called Nanomagnetism.

Nanomagnetism is a field where many nanoscale effects abound, resulting in either the reduced size of the material or the predominant effect on surfaces. One of the more surprising recent incarnations of such novel magnetic behavior is the observation of magnetic properties in nanoscaled materials which are diamagnetic (non-magnetic) in the bulk. This type of behavior has been observed in metal oxide nanoparticles and nanocrystalline films, as well as typically paramagnetic and diamagnetic metal nanostructures.

Based on the aforementioned principles, the research group ventured into this branch of science to develop the NOXTAK technology, which was later patented as an invention and called SPIRO®. 

In itself, SPIRO® is a nanocomposite material that was developed taking into account the scientific discoveries of the time about the extraordinary properties of NPs (nanoparticles) of gold (Au) and other metals, whose observations have subsequently been repeatedly confirmed by multiple scientific papers⁶, and how they react at the nanoscale⁷. This led the founders to create a formulation with stable ferromagnetic NPs⁸ (nanoparticles) that generate a reorganization of the polarity of the particles that interact with the material, this nanocomposite material induces an organization of the radiation spins⁹, also known as SPIRO® technology (Spin Radiation Organizer).

Our technology acts as a passive filter for electromagnetic waves, neutralizing interference and improving the radiation propagation pattern in EMF emissions to make them compatible with our bioelectrical system. Without SPIRO®, our cells and system are under constant attack from disturbed (artificially polarized) electromagnetic waves. Among many other health concerns, EMF pollution has been scientifically proven to cause oxidative stress in our bodies, leading to premature aging and being linked to more than 75 health conditions. With the use of SPIRO® technology, your cells are protected from the harmful effects of disturbed radiation, resulting in improved heart rate variability, brain activity, and the nervous system. Many people also notice an improvement in sleep, concentration, or anxiety within the first month of protection.

Case studies show a significant biological response when all SPIRO® Solution products are incorporated, filtering every source of electrosmog an individual is exposed to. With constantly expanding and evolving technology it is impossible to avoid this invisible pollutant and the harm it causes to not only humans but every biological system in our environment and technology itself. SPIRO® was created to be capable of filtering all sources of pollution in different frequencies and of covering large spaces of disturbed radiation, converting these polluted spaces into clean and human-friendly environments.

Diagrams and drawings of the SPIRO® Material Patent

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DOUBLE BLIND CLINICAL STUDY

Influence of electromagnetic protection technology on human psychophysiological condition

Objectives: This study aimed to demonstrate the beneficial effect of Noxtak electromagnetic protection technology on human psychophysiology.

Design: An open, randomized, placebo-controlled trials for 30 days. Participants were measured initially, randomly divided into two groups (experimental and control), and measured 30 days later after using Noxtak technology in the experimental group and placebo in the control group.

Subjects: 50 healthy athletes, age 14-25 years, men and women, randomly divided into two groups of 25 people. Randomization was based on the principle of random numbers. The ethics committee of the Federal State Budget Institution “Saint-Petersburg ScientificResearch Institute for Physical Culture,” St. Petersburg, Russia, approved the study protocol. All participants signed an informed consent form, where a written and oral explanation of the research protocol was provided.

Outcome measures: psychological testing, rhythmocardiography, biofield parameters analysis.
Results: Participants using Noxtak electromagnetic protection for 30 days demonstrated positive changes in psychophysiology parameters, experienced growth in aerobic capacity, physical performance, energy potential, and their bodies’ adaptive reserves, while physiological parameters of athletes using placebo did not change or worsened.

Conclusions: Participants using Noxtak technology for 30 days demonstrated improvement of psychophysiological parameters and sleep quality, which may be related with the protection effect from electromagnetic radiation.

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5-year longitudinal study

Prevalence and Effects of Electrohypersensitivity: Evaluating the Application of SPIRO in the Management of EHS in a Longitudinal Study of 357 Patients

Abstract: This study examines the prevalence and effects of electrohypersensitivity (EHS) in a sample of 357 patients for 5 years, from 2014 to 2018. EHS, also known as electromagnetic sensitivity, is a condition characterized by a range of physical and psychological symptoms attributed to exposure to electromagnetic radiation. Using a survey consisting of 29 common EHS symptoms and additional questions about lifestyle and device usage, researchers identified six levels of EHS severity: initial electro-stress, medium electro-stress, advanced electro-stress, initial EHS, medium EHS, and advanced EHS. Results showed that the most common symptoms were fatigue, difficulty concentrating, and sleep disturbances. The study also found that certain types of electromagnetic radiation were associated with specific symptom patterns. For example, exposure to microwave signals was linked to symptoms such as ringing in the ears and pulses in the neck, while exposure to extremely low frequency (ELF) fields was linked to numbness in extremities and tiredness. The authors report that the application of SPIRO was successful in improving symptoms in 144 of the study participants. The authors suggest that further research is needed to understand the mechanisms underlying EHS and to develop effective interventions. 

Objectives: Administer the EHS Common Symptoms Questionnaire to Dr. Leal’s patients to analyze the results concerning their mental health conditions, including the severity of their depression, anxiety, confusion, and sleep disorders. The group of patients experiencing a range of EHS symptoms was offered the use of SPIRO as a potential intervention, and their progress was monitored for any changes or reductions in their reported EHS symptoms and mental health issues.

Subjects: 357 Cases (46 adult males / 189 adult females / 122 children) with manifested potential EHS conditions.

Biophysical testing of the SPIRO LEVEL 2


Objectives: This evaluation is aimed to determine the effectiveness of the SPIRO CARD L2 as a protection measure against

electromagnetic fields from anthropogenic sources.

Design: Using the HRV marker, the International Association for Electrosmog Research (IGEF) tested the protective effect of the Spiro Card L2 against health-endangering disturbances caused by high frequency electromagnetic radiation and electrosmog.

Subjects: 10 test subjects who claimed to be electrohypersensitive, of both genders, with various ages, in various test situations.

Outcome measures: Heart Rate Variability Index.

Results: The results of the biophysical investigation by the IGEF confirmed that the use of the Spiro Card L2 with health-endangering disturbances caused by high frequency electromagnetic radiation leads to a verifiable improvement in the heart rate variability, and its positive effect increases with the duration of use.

Conclusion: The Spiro Card L2 is an effective protection measure against high frequency electromagnetic radiation and its biological effects.

Biophysical testing of the SPIRO LEVEL 3


Objectives: This evaluation is aimed to determine the effectiveness of the SPIRO CARD L3 as a protection measure against

electromagnetic fields from anthropogenic sources.

Design: Using the HRV marker, the International Association for Electrosmog Research (IGEF) tested the protective effect of the Spiro Card L3 against health-endangering disturbances caused by high frequency electromagnetic radiation and electrosmog.

Subjects: 10 test subjects who claimed to be electrohypersensitive, of both genders, with ages between 10 and 76 years, in various test situations.

Outcome measures: Heart Rate Variability Index.

Results: The results of the biophysical investigation by the IGEF confirmed that the use of the Spiro Card L3 with health-endangering disturbances caused by high frequency electromagnetic radiation leads to a verifiable improvement in the heart rate variability, and its positive effect increases with the duration of use.

Conclusion: The Spiro Card L3 is an effective protection measure against high frequency electromagnetic radiation and its biological effects.

Biophysical testing of the SPIRO LEVEL 4


Objectives: This evaluation is aimed to determine the effectiveness of the SPIRO L4 as a protection measure against

electromagnetic fields from anthropogenic sources.

Design: Using the HRV marker, the International Association for Electrosmog Research (IGEF) tested the protective effect of the SPIRO L4 against health-endangering disturbances caused by high frequency electromagnetic radiation and electrosmog.

Subjects: 10 test subjects who claimed to be electrohypersensitive, of both genders, with ages between 10 and 76 years, in various test situations.

Outcome measures: Heart Rate Variability Index.

Results: The results of the biophysical investigation by the IGEF confirmed that the use of the SPIRO L4 with health-endangering disturbances caused by high frequency electromagnetic radiation leads to a verifiable improvement in the heart rate variability, and its positive effect increases with the duration of use.

Conclusion: The SPIRO L4 is an effective protection measure against high frequency electromagnetic radiation and its biological effects.

Biophysical testing of the SPIRO LEVEL 5

Objectives: This evaluation is aimed to determine the effectiveness of the SPIRO L5 as a protection measure against

electromagnetic fields from anthropogenic sources.

Design: Using the HRV marker, the International Association for Electrosmog Research (IGEF) tested the protective effect of the SPIRO L5 against health-endangering disturbances caused by high frequency electromagnetic radiation and electrosmog.

Subjects: 10 test subjects who claimed to be electrohypersensitive, of both genders, with ages between 10 and 76 years, in various test situations.

Outcome measures: Heart Rate Variability Index.

Results: The results of the biophysical investigation by the IGEF confirmed that the use of the SPIRO L5 with health-endangering disturbances caused by high frequency electromagnetic radiation leads to a verifiable improvement in the heart rate variability, and its positive effect increases with the duration of use.

Conclusion: The SPIRO L5 is an effective protection measure against high frequency electromagnetic radiation and its biological effects.

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REFERENCES

  1. BioInitiative Report (2012) Reported Biological Effects from Radiofrequency Radiation at Low-Intensity Exposure (Cell Tower, Wi-Fi, Wireless Laptop and ‘Smart’ Meter RF Intensities). 
  2. Hamedi, N., Saviz, M., Banaei, A., Shabani, S., Qafary, M., Moosavi-Movahedi, A., Faraji-Dana, R. (2020) Effects of circularly-polarized electromagnetic fields on solvated hemoglobin structure. 
  3. Johansson, O. (2015) Electrohypersensitivity: a functional impairment due to an inaccessible environment. 
  4. Panagopoulos, D., Johansson, O., Carlo, G. (2015) Polarization: A Key Difference between Man-made and Natural Electromagnetic Fields, in regard to Biological Activity. 
  5. Suzuki, M., Kawamura, N., Miyagawa, H., Garitaonandia, J., Yamamoto, Y., Hori, H. (2012) Measurement of a Pauli and Orbital Paramagnetic State in Bulk Gold Using X-Ray Magnetic Circular Dichroism Spectroscopy. 
  6. Amendola, V.,Meneghetti, M., Stener, M., Guo, Y., Chen, S., Crespo, P., García, M., Hernando, A., Pengo, P., Pasquato, L. (2014) Physico-Chemical Characteristics of Gold Nanoparticles. 
  7. Yamamoto, Y., Hori, H. (2004)   Direct Evidence of Ferromagnetic Spin Polarization in Gold Nanoparticles.
  8. Bedanta, S., Barman, A., Kleemann, W., Petracic, O., Seki, T. (2013) Magnetic Nanoparticles: A Subject for Both Fundamental Research and Applications. 
  9. Chi-Yen L., Sunil K., Chin-Wei W., Wen-Hsien L. (2013) Spin Polarization and Quantum Spins in Au Nanoparticles. 
  10. OTA Summation Test Report SPIRO CARD L2 (SPIRO® CARD). Verkotan.
  11. OTA Summation Test Report SPIRO CARD L3 (SPIRO® SQUARE). Verkotan
  12. Korotkov KG, Gavrilova EA, Churganov OA, Machado JJ (2022) Influence of electromagnetic protection technology on human psychophysiological condition. 
  13.  Wulf-Dietrich R., Machado J., Rubio L. (2022) Biophysical testing of the SPIRO CARD LEVEL 2 regarding the protective effect with electromagnetic radiation.
  14.  Wulf-Dietrich R., Machado J., Rubio L. (2022) Biophysical testing of the SPIRO CARD LEVEL 3 regarding the protective effect with electromagnetic radiation.
  15. Wulf-Dietrich R., Machado J., Rubio L., Díaz, D. (2022) Biophysical testing of the SPIRO DISC LEVEL 4 regarding the protective effect with electromagnetic radiation.
  16.  Wulf-Dietrich R., Machado J., Rubio L., Díaz, D. (2022) Biophysical testing of the SPIRO DISC LEVEL 5 regarding the protective effect with electromagnetic radiation.