Ten New Studies Detail Health Risks of 5G

STORY AT-A-GLANCE

Several studies published between 2022 and 2024 underscore the health risks posed by 5G technology
Research contradicts the International Commission on Non-Ionizing Radiation Protection guidelines, demonstrating various harmful biological effects of radiofrequency radiation (RFR) on humans and the environment, including potential cancer risk
Studies reveal 5G’s potential to induce neurological damage and psychiatric problems, highlighting its effects on brain development, including the increased risk of conditions like dementia through mechanisms such as the impairment of neurosin
A December 2023 study illustrates the detrimental effects of 5G RFR on rat sperm, showing decreased sperm count and quality, with melatonin offering a protective effect
February 2024 research indicates significant changes in the fecal microbiome and metabolome profiles in mice exposed to 5G RFR, hinting at broader implications for health, including mental well-being and immune function

Over the past decade, I’ve written many articles discussing the evidence of biological harm from nonionizing electromagnetic field (EMF) radiation and radiofrequency radiation (RFR) from wireless technologies.

The video above features an interview I did with Siim Land in February 2020 for his Body Mind Empowerment podcast in which I discuss EMF — what it is, your greatest sources of exposure, how it affects your biology, and how to minimize your exposure. I also review how the telecommunications industry manipulates the truth to keep you unaware of the potential hazards.

While the wireless industry is built on the premise that the only type of radiation capable of causing harm is ionizing — X-rays being one example — researchers have for a long time warned that even nonionizing and non-heating radiation can jeopardize your health. This includes not only human health, but also that of plants and animals.

Over time, I became so convinced of the deleterious effects of EMF, I took three years to write “EMF*D” which was published in 2020. In it, I reviewed the overwhelming evidence showing EMFs are a hidden health hazard that simply cannot be ignored any longer.

During the pandemic, we also witnessed the rollout and installation of 5G across the country, which has exponentially increased exposures, as it’s added on top of the already existing wireless infrastructure.

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The first of these, published in September 2022 in the journal Reviews on Environmental Health,² provides a good overview of the hazards 5G poses. The authors pointed out that, since September 2017, over 400 scientists and doctors have collectively submitted six appeals to the European Union, calling for a moratorium on 5G technology. All have been ignored.

The September 2021 appeal included an “extensive cover letter” in which experts argued that the EU’s reliance on guidelines by the International Commission on Non-Ionizing Radiation Protection (ICNIRP) places public health at risk because the guidelines only consider “heating and no other health relevant biological effects from RFR.”

The letter countered the ICNIRP’s guidance with research from European and international expert groups detailing myriad adverse biological effects of RFR on humans and the environment.

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5G May Cause Neurological and Psychiatric Problems

The second study,⁶ published in November 2022, investigated the effects of 4.9 GHz (one of several 5G frequencies) RFR on the emotional behaviors and spatial memory in adult male mice. The exposure was found to induce “depression-like behavior” caused by “neuronal pyroptosis in the amygdala.”

Pyroptosis is a form of programmed cell death distinct from other forms of apoptosis, characterized by its inflammatory response. It involves the swelling and bursting of the cell, leading to the release of pro-inflammatory cytokines and intracellular contents that can trigger an immune response in the surrounding tissue.

This process is controlled by gasdermin proteins, which form pores in the cell membrane, and is often initiated in response to infections by pathogens or other signals indicating cellular damage.

The amygdala is a region of the brain involved in emotion regulation, memory, and decision-making. So, pyroptosis in this area could be indicative of neurological damage or inflammation, potentially affecting emotional regulation, behavior, and cognitive functions.

This could be relevant in the context of neurodegenerative diseases, brain injuries, or infections that impact the central nervous system, leading to various neurological and psychiatric implications.

Four Studies Confirm 5G’s Impact on Neurology

Another four studies published in 2023 also show a variety of damage occurring in the brain:

• 5G increases permeability of the blood-brain barrier⁷ — In the first, RFR from 5G cellphones at 3.5 GHz or 4.9 GHz for one hour per day for 35 days straight was found to increase the permeability of the BBB in the cerebral cortex of mice.

• RFR impairs neurogenesis and causes neuronal DNA damage⁸ — In the second, continuous RFR from cellphones at 2115 MHz for eight hours was shown to induce higher levels of lipid peroxidation, carbon-centered lipid radicals, and single-strand DNA damage, resulting in impaired neurogenesis in the hippocampal region and neuronal degeneration in the dentate gyrus region.

Translation: Cellphone radiation may cause cognitive impairment and deficits, behavioral changes and dysfunctional mood regulation, neurodegenerative disorders (due to the oxidative stress within neurons) and psychiatric conditions such as anxiety and depression.

• Electromagnetic radiation associated with anxiety⁹ — This study found anxiety-like behavior in male mice exposed electromagnetic radiation at 2650 MHz for four hours a day for 28 days.

• 5G may promote dementia¹⁰ — Lastly, a follow-up study on previous research concluded that RFRs at 1.8 GHz to 3.5 GHz:

◦ Inhibit neurosin, an enzyme that plays a role in brain health, including the breakdown of proteins that, if not properly managed, could lead to conditions like Alzheimer’s disease. This finding suggests that cellphone radiation could potentially interfere with the brain’s ability to prevent the buildup of harmful proteins.

◦ Inhibit the electrical activity of neurons in vitro — Neurons communicate with each other using electrical signals and this activity is crucial for everything your brain does, from processing sensory information to controlling muscle movements. Inhibiting electrical activity means disrupting normal brain cell communication, which could potentially impact brain functions.

5G Affects Brain Development

An October 2023 study¹¹ by Bodin et al. investigated the effects of exposure to 5G during the perinatal period — around the time of birth — on the neurodevelopment of rats. The main goal of this study was to explore how being exposed to 5G EMF around the time of birth affects the brain development of rats as they grow into juveniles and adolescents.

Both male and female rat pups exposed to 5G EMF showed delayed incisor (front teeth) eruption. This indicates that EMF exposure could potentially slow down certain aspects of physical development. The study also found notable differences in behavior based on the sex of the rats.

In adolescent female rats, there was a significant reduction (70%) in stereotyped movements, such as repetitive patterns of behavior, in the open field test. This suggests that exposure may reduce certain repetitive behaviors in females. In contrast, male rats exhibited a 50% increase in stereotyped movements, indicating that the same exposure led to an increase in repetitive behaviors.

In short, the research suggests that exposure to 5G EMF at levels below the regulatory threshold during a critical period of development (perinatal period) has the potential to cause disturbances in neurodevelopment. These effects are seen in juvenile and adolescent descendants and manifest differently in males and females.

While it’s difficult to predict what the human health implications of this might be, it’s worth noting that repetitive behaviors are often associated with neurodevelopmental disorders such as autism spectrum disorder (ASD) and attention deficit hyperactivity disorder (ADHD). In such cases, these behaviors may signal underlying neurological differences and can impact an individual’s social interactions, learning, and daily functioning.

In some instances, repetitive behaviors can also be symptomatic of anxiety, obsessive-compulsive disorder (OCD), stress-related disorders and self-harming behaviors such as skin picking or hair pulling. For some individuals, repetitive behaviors can interfere with attention and focus, affecting academic performance, workplace productivity, and the ability to complete daily tasks efficiently.

It can also affect an individual’s social interactions and relationships, and can lead to social isolation, bullying, or stigma, particularly in children and adolescents, further impacting emotional well-being and self-esteem. Repetitive behaviors, particularly those associated with anxiety or compulsive disorders, can also disrupt sleep patterns, leading to insomnia or poor sleep quality, which in turn affects overall health and well-being.

RFR Decimates Male Fertility — Melatonin Can Help Restore It

A December 2023 study,¹² which explored the negative effects of long-term exposure to 2100 MHz RFR on rat sperm characteristics, brought both good and bad news.

On the downside, male rats exposed to RFR at 2100 MHz for 30 minutes a day had a significantly higher percentage of sperm with abnormal shapes. There was also a significant reduction in the total sperm count among the exposed rats.

At a more detailed level, examining the sperm structure under a microscope (the ultrastructural level), damage was observed in critical parts of the sperm, including the:

Acrosome, a cap-like structure that helps the sperm penetrate an egg
Axoneme, the central shaft of the sperm tail
Mitochondrial sheath, which powers the sperm tail’s movement
Outer dense fibers, which are part of the sperm tail

The good news is that melatonin supplementation was able to prevent these problems. Rats given 10 milligrams of melatonin per kilo of bodyweight via subcutaneous administration had increased sperm counts and the proportion of sperms with normal shapes increased. Moreover, the ultrastructural damage to sperm caused by RF exposure was fully reversed.

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Case Study of 8-Year-Old Boy

In January 2024, Hardell et al. presented a case study¹³ of an eight-year-old boy experiencing severe headaches and other symptoms while attending a school located near a mobile phone tower equipped with 5G base stations.

The boy’s school is situated 200 meters away from a mobile phone tower with 5G base stations, with his classroom being 285 meters away. Soon after starting school, he began experiencing headaches, which were initially sporadic, not occurring every day or every week.

By autumn 2023, the boy’s headaches intensified, occurring daily and rated as a 10 on a 10-grade scale, where 0 signifies no discomfort and 10 indicates unbearable pain. He also experienced fatigue (rated 5) and occasional dizziness (rated 7), specifically while at school. At home, he occasionally had mild headaches (rated 2) that subsided relatively quickly.

In the autumn of 2023, he started wearing an RF-protective cap and outerwear at school, both indoors and outside, after which the headaches vanished.

This paper also cites epidemiological studies and laboratory research linking RF radiation exposure to cancer through mechanisms such as oxidative stress, mRNA effects and DNA damage, and argues for classifying RF radiation as a Group 1 human carcinogen, noting that “This classification should have a major impact on prevention measures.”

5G Alters Your Microbiome

Lastly, a February 2024 study¹⁴ by Wang et al. examined the impact of 5G RFR on the fecal microbiome and metabolome profiles in mice. The results indicated that the mice exposed to RFR experienced significant alterations in their intestinal microbial compositions, characterized by a decrease in microbial diversity and shifts in the microbial community distribution.

Through metabolomics profiling, the researchers identified 258 metabolites that were significantly differentially abundant in the mice exposed to RF fields compared to controls, which suggests it can have a profound impact on metabolic processes.

The authors concluded that exposure to 4.9 GHz RFR can cause intestinal microbiota dysbiosis in mice and hypothesized that the observed imbalances in gut microbiota and metabolism might be linked to depression-like behaviors in mice seen in so many studies. The imbalance in the metabolic profile may also be associated with changes in immune regulation or inflammation.

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