The Noxtak Principles
– NTK3-2024
The Noxtak principles originate from an extensive and rigorous scientific project documented by the Noxtak Center. This project was led by EMF researcher José Joaquín Machado and focused on understanding and mitigating electromagnetic pollution, covering various aspects and environments. It included a 4-year longitudinal study on individuals with Electromagnetic Hypersensitivity (EHS) and a study of industrial, semi-industrial, commercial, residential, and natural reserve exposures, spanning a total of 7 years. During this time, background microwave radiation was measured continuously in more than 20 cities across 7 different countries, as well as a census in the islands of Aruba and Curaçao involving more than 10,000 people, including nearly 500 individuals with EHS.
Additionally, the co-founders of Noxtak, along with a multidisciplinary group, aimed to review previous hypotheses about the electromagnetic problem and focus the project on verifying conceptions and approaches regarding electromagnetic pollution. This team sought to validate the empirical conclusions of many individuals with EHS, who presumed to have protection by not presenting skin symptoms or by believing that a specific frequency affected them or not. They investigated the nocebo effect and psychological predisposition in some of these individuals, as well as the implications of anti-radiation systems on the environment.
The project also aimed to confirm hypotheses about natural radiations and their importance in the electromagnetic recovery process, as well as natural geopathies. Dozens of hypotheses were evaluated whose experimental evidence was inconsistent or whose mechanisms could be different from those proposed. Additionally, they analyzed which “solutions” provided a permanent fix and which could imply other long-term problems for individuals or the environment.
One of the most significant developments from the Noxtak Center is SPIRO® (Spin Radiation Organizer) technology, a nanocomposite material that acts as a passive filter for electromagnetic waves. This technology uses nanomagnetism properties to reorganize the polarization of spins in electromagnetic particles, neutralizing interferences and improving the radiation propagation pattern.
The Noxtak Center continues ongoing research on all the Noxtak principles, periodically generating reviews, updates, and expansions based on the data collected. This ensures that the understanding and solutions developed are always aligned with the latest scientific findings and the emerging needs of health and the environment.
1. RADIATION IS NOT NECESSARILY HARMFUL; ITS EFFECTS CAN BE HARMFUL OR HARMLESS DEPENDING ON THE SOURCE AND PROPAGATION PATTERN.
Abstract:
Electromagnetic radiation (EM) is omnipresent and manifests in various frequencies, not all of which are harmful. It is essential to distinguish between natural and artificial radiations, understanding that not all non-native radiations are harmful. Sunlight, a form of EM radiation, is essential for life, regulating biological functions in humans and other species. The Earth also emits low-frequency radiations essential for life, such as the Schumann resonance. However, some artificial radiations, such as those from poorly regulated electronic devices, can be harmful. Properly evaluating the impact of radiation requires understanding its specific characteristics, such as frequency, intensity, and interaction with living organisms.
2. ARTIFICIAL POLARIZATION OF NON-NATIVE FREQUENCIES PRODUCES ELECTROMAGNETIC POLLUTION:
Abstract:
Electromagnetic radiations (EM), ranging from visible light to the lowest frequencies, are classified as non-ionizing radiations (NIR), which include microwaves, radio waves, and low frequencies. Although human technologies generate non-native frequencies, not all are harmful or produce electromagnetic pollution; some, such as TENS devices, infrared and red light therapies, PEMF machines, and photobiomodulation devices, have proven benefits in biohacking and medicine. Electromagnetic pollution, originating from non-native frequencies with artificial polarization, is particularly present in electronic devices like mobile phones and WiFi routers, generating unnatural radiation patterns that can be harmful, whereas other technologies can be beneficial without generating electromagnetic pollution or doing so minimally.
3. ELECTROMAGNETIC POLLUTION IS QUANTUM NOISE THAT AFFECTS BIOLOGY AND THE ENVIRONMENT:
Abstract:
Electromagnetic pollution propagates as ultra-weak radiations that fill spaces, transferring disturbances in the form of quantum noise, which alters the biology of all species and increases entropy in environments. Primarily, it affects quantum magnetism, creating distortion fields that modify the polarization of quantum spins and spin-orbit interactions (SOI), which are essential for the stability of quantum systems. This compromises the information encoded in these systems, affecting biological and technological processes. In biological systems, electromagnetic pollution destabilizes cellular communication and bioelectrical processes, causing oxidative stress, inflammation, and cellular dysfunction, contributing to various pathologies. In technological systems, it alters quantum interactions, affecting the efficiency and reliability of electronic devices and compromising data integrity.
4. BIOLOGY AT THE FUNDAMENTAL LEVEL COMMUNICATES AND REGULATES THROUGH EM WAVES (LIGHT):
Abstract:
All species, including environmental microbiomes, communicate via electromagnetic waves (light) across various frequencies. Electromagnetic pollution, generated by artificially polarized radiations, interferes with this communication, causing quantum noise that affects cellular and microbial function, thereby disrupting the ecosystem. Research by Dr. Marco Ruggiero has shown that electromagnetic fields (EMFs) negatively impact microbiomes in the gut and brain, disrupting microbial biofilms with radiations such as those from 5G technology. Electromagnetic pollution also generates disturbances in quantum magnetism, altering spin-orbit interactions and angular moments, compromising the information encoded in quantum systems and affecting essential biological and technological processes.
5. ELECTROMAGNETIC POLLUTION IS GENERATED BY AC AND TELECOMMUNICATIONS:
Abstract:
Electromagnetic pollution is generated by both alternating current (AC) and telecommunications. The modulated waves used in telecommunications, along with the generation of harmonics and transients in alternating current, produce polarity changes in the spins of the radiation. These polarity changes result in an alteration of the electromagnetic field which, when absorbed by the organism, generates quantum noise. This quantum noise induces abnormal stimulation in cells, microbiomes, organs, and systems of the human body. Cells and microbiomes, which normally communicate and function harmoniously through natural electromagnetic signals, are disrupted by these artificially polarized radiations. This can result in cellular dysfunction, imbalances in microbiomes, and ultimately broader health issues. Continuous exposure to this electromagnetic pollution can disrupt fundamental biological processes and homeostasis, leading to a range of long-term adverse health effects, including oxidative stress, inflammation, and dysfunction of critical biological systems.
6. ELECTROMAGNETIC POLLUTION REDUCES CELLULAR VOLTAGE:
Abstract:
Electromagnetic pollution reduces cellular voltage by abnormally stimulating the electrical receptors on the cell membrane, known as voltage-gated ion channels, particularly VGCC (voltage-gated calcium channels). These channels are crucial for regulating the entry and exit of ions, such as calcium, which is vital for numerous cellular functions, including intracellular signaling, muscle contraction, and neurotransmitter release. Exposure to electromagnetic pollution causes excessive opening of these channels, allowing a massive influx of calcium ions into the cell. This excess intracellular calcium can trigger a series of negative events, such as oxidative stress, mitochondrial dysfunction, and activation of enzymes that can damage cellular structures.
The disruption of VGCCs not only affects the viability and functioning of individual cells but can also disturb the balance and communication in more complex systems, such as the nervous and cardiovascular systems. In the long term, this dysfunction can contribute to the development of various pathologies, including neurodegenerative diseases, heart disorders, and metabolic problems. In summary, the influence of electromagnetic pollution on voltage-gated ion channels represents a significant threat to cellular integrity and health, and consequently, to the overall well-being of the organism.
7. ELECTROMAGNETIC POLLUTION IS A SOURCE OF OXIDATIVE STRESS:
Abstract:
Electromagnetic pollution is a significant source of oxidative stress. Exposure to electromagnetic pollution causes cellular disruption, triggering a chain reaction that starts with the disturbance of cellular communication and the alteration of the cells’ electrical potential. This imbalance leads to an increase in the production of reactive oxygen species (ROS), resulting in elevated oxidative stress in the body. Excessive ROS generates a higher production of free radicals, which are highly reactive molecules that can damage cellular structures, including proteins, lipids, and DNA. This cellular damage induces chronic inflammatory responses in the body, contributing to premature aging and accelerated cellular deterioration.
Oxidative stress has been linked to a wide range of health issues, affecting over 111 different conditions, including neurodegenerative, cardiovascular, and metabolic diseases, as well as various types of cancer. The chronic inflammation resulting from oxidative stress can also exacerbate symptoms of existing diseases and increase the body’s vulnerability to new pathologies. In summary, electromagnetic pollution, by inducing oxidative stress, represents a considerable threat to health, contributing to cellular deterioration and a variety of diseases through inflammatory and oxidative damage mechanisms.
8. THE EFFECTS OF ELECTROMAGNETIC POLLUTION ARE NON-THERMAL AND CANNOT BE BLOCKED:
Abstract:
The biological effects associated with this type of radiation are known as NON-THERMAL EFFECTS. Electromagnetic fields (from artificial sources) are ULTRA-WEAK RADIATIONS that do not carry enough energy (5,000 watts) to cause a thermal effect and heat tissue. The non-ionizing radiation from technologies, due to its disturbance, INTERFERES WITH CELLULAR COMMUNICATION, which is based on electrical communication centered on polarities. Such disruption results in a decrease in body voltage and the onset of discomfort levels (see paper). The harmful non-thermal effects CANNOT BE BLOCKED 100%. Any attempt to block them will leave a trace and an accumulation of electromagnetic pollution in the surrounding environment, and the disturbance in the quantum fields transfers through tunneling, which will equally affect biological species (see paper). Even 0.01% of the radiation emitted by a cell phone ALTERS THE FUNCTIONING OF CELLS in the human body. THERE IS NO SAFE LEVEL of exposure to microwave radiation, especially when it comes with artificial polarization in its spins. Electromagnetic contamination (EMC) affects not only humans but ALL BIOLOGICAL SYSTEMS. This includes pets, plants, and all of nature, altering the migration patterns of birds, marine species, and putting bees at greater risk of extinction.
9. TECHNOLOGIES THAT COMPLY WITH ALARA STILL GENERATE ELECTROMAGNETIC POLLUTION:
Abstract:
Although the ALARA principle (as low as reasonably achievable) is fundamental for promoting more efficient technologies with lower levels of Electromagnetic Interference (EMI), even technologies that comply with this standard still generate electromagnetic pollution and should be considered potential pollutants. The residual emissions from these technologies, though minimized, are not completely eliminated and can continue to affect cellular communication and ecosystem balance. Therefore, it is crucial to implement additional filtering and control measures to manage and mitigate these residual emissions. Constant monitoring and rigorous evaluation of technologies in compliance with ALARA are necessary to ensure that their negative effects on public health and the environment are minimized to the fullest extent. Furthermore, it is important to continue researching and developing new technologies that not only comply with ALARA but also significantly reduce the impact of electromagnetic pollution, thereby promoting a safer and healthier environment for all forms of life.
10. SHIELDING SYSTEMS INTERFERE WITH THE NATURAL EM FLOW:
Abstract:
Anti-radiation clothing does not neutralize the pollution and interferences of these radiations in the surrounding environment but instead BLOCKS the passage of radiation at specific points into the body. This is NOT HEALTHY in the long term, as it blocks the necessary interaction between the human body, Earth’s magnetism, and the natural frequencies of the environment (see paper). Anti-radiation systems used in environments (carpets, curtains, paints, covers) have proven effective in the short term but can sometimes be SOURCES OF GREATER INTERFERENCE in the environment. Case studies have shown that they can create microwave radiation beams that penetrate buildings. Anti-radiation accessories for mobile phones, tablets, and laptops DISRUPT THE PROPER FUNCTIONING of these devices, causing them to produce more radiation in an attempt to transmit or receive a signal. This makes the devices work harder and reduces battery life.
11. EMI AND AC HARMONICS CONTROL REDUCES EM TOXIC LOAD:
Abstract:
Controlling Electromagnetic Interference (EMI) and harmonics in alternating current (AC) is essential for reducing the electromagnetic toxic load in the environment. Recommended practices include the implementation of active filtering systems to eliminate harmonics and transients, also known as dirty electricity, as well as the proper installation of grounding and isolation of alternating electric fields (ELF). These methods help maintain the purity of the electrical supply and minimize electromagnetic interference in biological and technological systems. It is crucial that these control systems do not introduce additional disturbances into the electrical system or the surrounding environment, which could counteract the expected benefits. Adopting these practices significantly contributes to creating a healthier environment, reducing the risks associated with electromagnetic pollution, and improving the overall well-being of living beings and the efficiency of electronic devices. Constant monitoring and proper maintenance of these systems are necessary to ensure their long-term effectiveness.
12. ARTIFICIAL LIGHT CAN EM POLLUTE SPACES AND INTERFERE WITH BIOLOGICAL FUNCTIONS:
Abstract:
Artificial light can be a significant source of electromagnetic (EM) pollution in indoor spaces and can interfere with the biological functions of occupants. To achieve a building with electromagnetic hygiene, it is essential to have an artificial lighting system that eliminates flickering and provides appropriate light temperatures and brightness intensities for human activities conducted in the space. Avoiding exposure to blue light is particularly important, as it can disrupt circadian rhythms and affect sleep quality. Additionally, natural light sources should be considered an important factor in space design, as natural light not only improves overall well-being but also reduces dependence on artificial lighting, thereby decreasing the EM pollution load. Properly integrating natural light through windows, skylights, and other architectural elements can significantly improve the health and comfort of occupants, promoting a more balanced and healthy environment. The combination of adequate artificial lighting and optimal use of natural light contributes to creating indoor spaces that support people’s health and well-being, minimizing electromagnetic pollution and its adverse effects.
13. EHS CAN HAVE VARIOUS ORIGINS AND CHRONIC CUMULATIVE EXPOSURE MAY BE JUST THE TRIGGERING EVENT.
Abstract:
Electromagnetic Hypersensitivity (EHS) can have multiple origins, with chronic exposure to electromagnetic fields acting only as a trigger for the symptoms. EHS is not solely caused by these fields but results from a combination of genetic predispositions, preexisting medical conditions, and other environmental and psychological factors. For recovery, it is crucial to adopt a comprehensive wellness approach that encompasses physical health through proper nutrition and regular exercise; mental health through stress management techniques and psychological support; and a safe environment by reducing exposure to contaminants and electromagnetic pollution. Additionally, a thorough medical evaluation and personalized treatment are essential to address all possible underlying causes. Although protection against electromagnetic pollution is important, it is not sufficient on its own; a holistic approach is necessary to achieve significant and sustained improvement in the quality of life for individuals with EHS.
14. THE NOCEBO EFFECT AND MENTAL HEALTH PLAY A DETERMINING ROLE IN EHS RECOVERY
Abstract:
The nocebo effect, which occurs when the expectation of adverse effects from a treatment or environmental exposure intensifies a person’s symptoms, plays a crucial role in Electromagnetic Hypersensitivity (EHS). In this condition, individuals report symptoms such as headaches and fatigue attributed to exposure to electromagnetic fields, known as electromagnetic pollution. Mental health significantly influences the perception of these symptoms, as fear and anxiety towards radiation can exacerbate them, regardless of a clear scientific correlation. Addressing psychological factors through cognitive-behavioral therapies and stress reduction strategies can be crucial for effectively managing EHS. This suggests that both the mind and the physical environment are key determinants in the health experience of those affected.
15. NEAR-FIELD ELECTRICAL STIMULI GENERATED BY ELECTRONIC DEVICES CAN ALTER BODILY FUNCTIONS:
Abstract:
Near-field exposure to low-frequency electric and magnetic fields generated by electronic devices can significantly impact the functioning of the sympathetic nervous system in some individuals, altering their abilities to rest, relax, and restore bodily functions. These non-native electromagnetic stimuli can interfere with the normal signals of the nervous system, leading to hormonal imbalances and disruptions in the circadian rhythm, which regulates sleep-wake cycles, among other biological processes.
The vulnerability or resistance to these stimuli varies according to the natural voltage of each individual. In more sensitive people, exposure can cause inappropriate activation of the sympathetic nervous system, manifesting in symptoms such as insomnia, anxiety, fatigue, and hormonal imbalances. Additionally, interference with circadian rhythms can have long-term health effects, contributing to metabolic, cardiovascular, and neurological disorders.
It is crucial to understand and mitigate the potential impacts of exposure to these electric and magnetic fields, considering individual differences in response to these stimuli, to protect overall health and well-being.
16. ELECTROMAGNETIC POLLUTION DISRUPTS WATER STRUCTURE IN BIOLOGICAL SYSTEMS, DEGRADING THEM:
Abstract:
Electromagnetic pollution can cause significant degradation of biological systems by disrupting the cellular water, which is the fundamental medium for the functioning of all biological organisms. This deterioration not only affects cellular viability by decreasing cellular voltage, which is crucial for nutrient absorption and the efficacy of intracellular communication, but also leads to confusing signals between cells. When cellular water loses its structure, essential cellular functions such as waste elimination and enzyme regulation are compromised. This disruption of water structure triggers a cascade of negative effects that compromise the integrity of biological systems, disrupting homeostasis and affecting vital processes such as cellular replication and immune response. The disturbance of cellular communication and the decrease in cellular voltage can result in increased vulnerability to diseases and systemic dysfunctions, including metabolic, cardiovascular, and neurological disorders.
It is crucial to understand and mitigate the impacts of electromagnetic pollution to preserve the health and functionality of biological systems, promoting an electromagnetically safe environment that allows proper cellular functioning and, ultimately, the overall well-being of living organisms.
17. HARMONIZERS CAN ALLEVIATE EHS SYMPTOMS BY MASKING ELECTROMAGNETIC POLLUTION:
Abstract:
Harmonizers, while they can provide temporary relief from the symptoms of Electromagnetic Hypersensitivity (EHS), primarily work by masking the effects of electromagnetic pollution rather than eliminating them. These devices create an environment that is perceived as more harmonious for users, reducing the discomfort associated with exposure to disruptive electromagnetic fields. However, it is crucial to recognize that the underlying issue of quantum noise generated by electromagnetic pollution remains unresolved.
Harmonizers can improve the quality of life for affected individuals by offering respite from symptoms such as headaches, fatigue, and anxiety, by temporarily mitigating the perception of these effects. However, they do not address the root cause of electromagnetic field exposure, which continues to disrupt cellular functions and the integrity of biological systems. Therefore, while harmonizers can be a useful tool for managing EHS symptoms, it is essential to combine them with more permanent and effective measures to reduce exposure to electromagnetic pollution.
This can include the use of electromagnetic emission reduction technologies, the implementation of better electromagnetic hygiene practices at home and work, and increased awareness about the need to limit exposure to sources of electromagnetic pollution to achieve a long-term and sustainable solution for the health and well-being of affected individuals.
18. EMF METERS DO NOT DETECT ELECTROMAGNETIC POLLUTION, ONLY PERCEIVE EM FORCES:
Abstract:
Electromagnetic field (EMF) meters do not directly detect electromagnetic pollution; instead, they perceive electromagnetic forces within a specific frequency band. Equipped with resonance sensors, they translate these forces into quantifiable values but do not clearly distinguish between different types of emissions. Most of these devices are calibrated for commonly used bands, excluding less commonly used but potentially significant bands, which limits the accuracy of the measurements. Only meters with band-selective frequency selectivity and datalogging functions can perform more precise dynamic assessments. Despite these limitations, EMF meters are useful for identifying near-field exposures to household appliances and determining the extent of high reactivity areas, providing valuable information for risk management in domestic environments.
19. SPECIFIC ARCHITECTURAL DESIGNS CAN REDUCE ELECTROMAGNETIC POLLUTION
Abstract:
Specific architectural designs can significantly reduce electromagnetic pollution without the need to use shielding materials. By adopting a more natural and thoughtful approach in the planning and construction of spaces, the accumulation of RF interferences can be minimized. The strategic arrangement of structural and decorative elements plays a crucial role in this aspect. For example, the excessive use of metals in buildings, such as sculptures, metal frames, and railings, can increase RF interferences in the environment. Therefore, it is essential to choose materials and designs that do not amplify these interferences.
Incorporating natural architectural elements, such as wood, stone, and natural fabrics, can help create a more balanced environment with less electromagnetic pollution. Additionally, proper planning that includes the correct placement of electronic devices and the optimization of furniture can contribute to a healthier indoor environment. Interior design should also consider reducing points of interference accumulation by avoiding the proximity of RF-emitting devices to areas of rest and work.
Thus, through careful and conscious architectural and interior design, it is possible to reduce exposure to electromagnetic pollution and improve the overall well-being of occupants without resorting to shielding materials.
20. COHERENT QUANTUM MAGNETISM FIELDS CAN ELIMINATE ELECTROMAGNETIC POLLUTION
Abstract:
Coherent quantum magnetism fields can eliminate electromagnetic pollution through the phenomenon of vortex resonance fields of quantum spins, known as the SPIRO principles. These fields generate a natural ordering in the electromagnetic environment, neutralizing disturbances and quantum noise caused by electromagnetic pollution. The process involves creating resonance vortices that coherently align the quantum spins, restoring harmony in the surrounding electromagnetic fields. This alignment reduces electromagnetic interference and promotes a healthier and more balanced environment, as SPIRO fields act as a natural filter against disruptive emissions.
By applying these principles in environments affected by electromagnetic pollution, the quality of the electromagnetic environment can be significantly improved, mitigating harmful effects on biological and technological systems. The implementation of SPIRO fields represents an innovative and effective solution for managing electromagnetic pollution, promoting the integrity of cellular processes and the stability of quantum systems, thus contributing to overall well-being and the sustainability of inhabited spaces.
21. GOLD AND OTHER METAL NPs CAN GENERATE COHERENT QUANTUM SPIRO FIELDS
Abstract:
Nanoparticles (NPs) of gold and other metals, such as palladium and titanium, can generate coherent quantum SPIRO fields due to their unique properties of ferromagnetism at the nanoscale. These discoveries have revealed that ferromagnetism at the nanoscale enables the application of nano-magnetism or quantum magnetism fields, a phenomenon that remains at these scales and does not transfer to macroscopic scales. This characteristic allows for an extraordinary application phenomenon for the neutralization of quantum noise, as demonstrated in the stable formula of SPIRO films composed of ceramic powder of gold, palladium, and titanium.
These coherent quantum fields generate a natural ordering of quantum spins, creating resonance vortices that neutralize the electromagnetic disturbances caused by electromagnetic pollution. The ability of these nanoparticles to maintain quantum coherence at the nanoscale provides an innovative solution to mitigate the effects of quantum noise without affecting macroscopic scales. This not only improves the quality of the electromagnetic environment but also protects biological and technological systems from the disruptive influences of electromagnetic pollution, promoting a more harmonious and healthy environment.
The implementation of these technologies based on metal nanoparticles represents a significant advancement in the management of electromagnetic pollution, highlighting the potential of applied quantum science in the protection and enhancement of inhabited spaces.