This paper examines literature on the potential influence of wireless communication radiation (WCR) and electromagnetic fields (EMF) on the SARS-CoV-2 spike protein–ACE2 receptor interaction, especially in the presence of graphene. It compiles findings related to oxidative stress, myocarditis, thrombosis, and inflammatory effects observed after COVID-19 infection or vaccination, referencing reports of graphene oxide impurities, magnetic phenomena, and persistent spike mRNA or proteins post-vaccination. The paper discusses molecular simulations showing that electric fields and temperature changes can alter spike conformation, reviews studies on electromagnetic exposure and oxidative stress, and highlights graphene’s electrical and magnetic properties, suggesting the need for further research into potential toxicological and electromagnetic co-factors influencing COVID-19 pathology and vaccine effects.
Below is a section-by-section breakdown of the paper titled “SARS-CoV-2 Spike Protein Derivates – ACE Link – Graphene and Wireless Communications Radiation: Epidemiological, Chemico-Physical, and Toxicological Aspects” by Gomez et al., Medical Reports and Case Studies, 2023.
S.A.R.S. COV-2 Spike Protein Derivates – ACE LINK – Graphene and Wireless Comunications Radiation :
Epidemiological – Chemico Physical and Toxicological Aspects –
Scientific Evidence and Other Interesting Documents
https://www.iomcworld.org/open-access/sars-cov2-spike-protein-derivates—ace-link–graphene–and-wireless-comunications-radiation—epidemiological–chemico-.pdf
June 12, 2023
Abstract
Aim of this work is to search and analyze scientific literature involved in the effect played by wireless comunication radiation in the S.A.R.S.-COV-2 spike protein derivates pathological process. This make possible to verify if it is necessary to be considered as a toxicological co-factor. Various published evidence finded graphene impurity in vial some C.O.V.I.D.-19 vaccine (P. Campra) or in vaccinated blood But It is relevant to deeply investigate this phenomena using scientifc evidence and other interesting documents from independed reseacher useful to generate hypotesys to be confirmed . Crucial also to verify the subpopulation distribution of pathological event in vaccinated like pericarditys or central nervous system thrombosys as well as the use of some technological tool like smartphone in the various age classes. This method make possible to generate hypotesys to be better veriefied . Related the profile of some toxicological aspect of some C.O.V.I.D. -19 vaccine and in specifc way to the rare effect like pericarditis or trombosys are reported in this work some relevant literature involved in the effect played by the SPIKE PROTEINS and its link on epithelial tissue ACE receptor, the Graphene (if present) and under some magnetic field or electrical condition. An experimental hypotheses is submitted to the reseacher in order to produce a global conclusion of toxicological interest in this work is used a neutral approach without pre-concept.
Keywords: Wireless Communications Radiation (W.C.R.) • Spike protein • ACE receptor • Temperature • Epidemiology • Publich health • C.O.V.I.D.-19 vaccine • Graphene • Electric Charge • Electromagnetic field • Magnetism • Pathology • Toxicology • Sinergy
2. Introduction
The authors set out to analyze how electromagnetic fields (EMF) might influence the spike–ACE2 binding process before viral entry into epithelial cells, especially if graphene is present.
They note that severe COVID-19 outcomes (e.g., lung inflammation, fibrosis, and blood clotting) are tied to this interaction, and they intend to evaluate whether age, comorbidities, or smartphone use could correlate with these effects.
Figures 1 – 7 illustrate epidemiological data (COVID-19 mortality, myocarditis, smartphone usage, and electromagnetic exposure).
3. Spike Protein Structure and Electromagnetic Influence
This section summarizes biophysical studies (especially Luo & Zuo, arXiv preprint) explaining spike-protein conformational transitions—“open” vs “closed” states—that determine its ability to bind ACE2.
The authors highlight work suggesting that electric fields could alter the spike’s conformation by changing free-energy barriers, potentially influencing viral infectivity.
They also link epidemiological data on myocarditis and thrombosis after vaccination to possible interactions with EM fields or graphene, framing it as an exploratory hypothesis.
4. Reports and Anecdotal Experiments
Several unreviewed or personal studies are discussed, such as Dr. David Nixon’s microscopic observations of “self-assembling structures” in vaccine samples exposed to Wi-Fi radiation, which allegedly did not form inside Faraday bags.
Similar anecdotal accounts from Carnicom and Mihalcea are mentioned, proposing that low-voltage currents or wireless radiation may stimulate structural changes in biological or “graphene-like” materials.
5. Materials and Methods
The paper uses an observational and literature-review approach—drawing from databases like PubMed plus additional gray literature and anecdotal studies.
The goal is to generate hypotheses, not to perform direct experiments. The authors claim neutrality but note inclusion of lower-quality “white papers” to broaden the survey.
6. Literature Review
This is the most technical section, summarizing multiple studies:
Rubik & Brown (2021) — Argue that both COVID-19 and WCR exposure induce oxidative stress through reactive-oxygen species (ROS), affecting cardiovascular and immune systems.
Animal studies — Reported DNA damage and oxidative stress in rabbits and rats exposed to cell-phone or microwave frequencies.
Schuerman (Review) — States EM fields may increase oxidative stress, with possible neurological and cardiovascular impacts.
Other references — Include research on chick-embryo heart malformations, cardiac biomarkers after microwave exposure, and tissue effects on antioxidant enzymes.
Overall, this section suggests electromagnetic radiation can biologically influence oxidative stress—a mechanism the authors extend hypothetically to the spike–ACE2 complex.
7. Spike Protein Energetics and Temperature Effects
Computational models show that the spike protein switches between open/closed states with an energy cost of ≈10–30 kcal/mol.
The paper cites molecular-dynamics simulations indicating that moderate electric fields (10⁷–10⁹ V/m) or temperature increases (40–50 °C) can destabilize spike folding.
The authors extrapolate that environmental electromagnetic exposure might, in principle, influence viral binding efficiency.
8. Graphene, Magnetism, and Nanoparticles
A long discussion explores:
Graphene’s electrical and magnetic properties (citing Scientific Reports 2020 and Nanomaterials 2014).
“Magnetism after vaccination” reports in Europe (“Secret 16” and Luxembourg surveys) alleging that coins or magnets adhered to injection sites.
References to superparamagnetic iron oxide nanoparticles (SPIONs) used in experimental DNA-vaccine delivery, cited as analogous to possible mechanisms of electromagnetic interaction.
These sections mix verified materials-science information about graphene with anecdotal claims about post-vaccination magnetism.
9. Vaccine mRNA Persistence and Immunological Findings
Summarizes recent peer-reviewed findings:
Danish study (2023) — Detected spike mRNA fragments in blood up to 28 days after vaccination.
Immunology studies — Show spike antigen persistence in lymph nodes up to 60 days post-mRNA vaccination.
Exosome studies — Describe spike-bearing extracellular vesicles that may contribute to immune activation.
Long COVID (PASC) — Reports of S1 protein persistence in certain monocytes up to 15 months after infection.
These are presented to suggest that spike-related proteins can remain detectable for weeks or months, though mainstream authors interpret this as normal antigen persistence.
10. Magnetogenetics and Neuro-stimulation
The paper references magnetogenetics research—using magnetic fields to control neuron activity—as an analogy for how magnetic or electric influences could act on spike proteins or cells.
It emphasizes that external magnetic fields can trigger calcium influx and membrane depolarization in genetically modified cells, but extrapolates this principle to biological effects after vaccination without experimental confirmation.
11. Results and Discussion
The review argues that electric and electromagnetic fields can deform spike proteins, reducing their binding to ACE2 at very high intensities.
However, it also speculates that chronic low-level exposure (e.g., from mobile networks) could alter protein behavior or oxidative balance in vivo.
The authors propose an “experimental project hypothesis”—to study whether electromagnetic exposure combined with spike proteins or graphene might influence pathological events such as myocarditis or thrombosis.
12. Conclusion
The paper concludes by calling for multidisciplinary toxicological research into possible synergies between spike proteins, graphene materials, and electromagnetic fields.
It states that findings to date are preliminary and hypothesis-generating, suggesting further reproducible studies to confirm or refute such relationships.
Overall Summary
In essence, this article is a literature compilation and speculative analysis that blends:
legitimate studies on spike-protein structure and electromagnetic effects at molecular scale,
recognized data on oxidative stress from radiation, and
Reports of (graphene in vaccines, magnetism in humans, Faraday-bag experiments).
Its stated purpose is to hypothesize a toxicological and electromagnetic interaction model for SARS-CoV-2 and vaccination, though no new empirical data are produced in the paper itself.
