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Resistant bacteria a global health threat

The World Health Organization (WHO) classifies carbapenem-resistant bacteria as a global health threat and of the highest priority for research and development of new treatment methods. The ECDC study emphasizes the importance of continuing to develop and improve the conditions for reducing the spread of multi-resistant bacteria.

To map the occurrence and spread of multi-resistant bacteria across national borders is now of paramount importance, as are much more restricted open-border policies across the world, and limits on international work and holiday journeys.

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A high-risk clone is a resistant bacterium of great clinical importance that has the ability to spread with high efficiency in inpatient care, cause serious infection, and cause long-term carriage in humans. High-risk clones are an important explanation for the spread of resistance in society.

The Swedish Public Health Agency closely follows the development of the number of cases and characterizes all findings with the aim of detecting and preventing the national spread of infection as well as changes in resistance mechanisms and resistance patterns. The same protective measures are now implemented in other countries as well.

Previous observations of antibiotic resistance around the world

On Monday, May 22, 2017, the newspaper ”Metro Stockholm” reported that the Ministers of Health from the so-called G20 countries, including Australia, France, India, Italy, Japan, Canada, China, Russia, Saudi-Arabia, Great Britain, South Africa, Turkey, Germany and the USA, have decided to cooperate to counter the ever-increasing and alarming world-wide resistance of bacteria to antibiotics.

Only within the EU there are yearly more than 35,000 deaths due to antibiotic-resistant bacteria, and by the year 2050, it has been calculated that more than 10,000,000 people worldwide will die prematurely each year due to antibiotic resistance.

Among the measures presented were national action plans to be in force at the end of the year 2018. Furthermore, the G20 countries are striving to only allow antibiotics to be purchased via formal medical prescriptions, as well as working towards supplying these medicines at lower and more reasonable prices in poor countries.

All of the above sounds very serious and scary, but still in the hands of highly capable authorities, civil servants, politicians, and health care officers, doctors and nurses. But then why do they not pay attention to the following?

Surprisingly enough, nothing is – however – mentioned about the very recent results of several international research units like that of Taheri et al. (2017; https://www.ncbi.nlm.nih.gov/pubmed/28203122), who have demonstrated that the exposure to 900 MHz GSM mobile phone radiation and 2.4 GHz radiofrequency radiation emitted from common Wi-Fi routers made Listeria monocytogenes and Escherichia coli bacteria resistant to different antibiotics. These findings naturally have direct implications for the management of serious infectious diseases and may potentially lead to a future collapse of the global human population.

Another very important study is the US DARPA-funded one (Rao et al. 2022) which has found that bacteria, Staphylococcus aureus, biofilms communicate using frequencies that are in the range that are used by Wi-Fi and 5G C-band. The experiment found that notable radiation is observed in the 3–4 GHz band coming from the Staphylococcus aureus biofilms.

Radiation from three identical biofilm samples was monitored and recorded over 70 days. Two distinct frequency bands, namely the 3.18 GHz and the 3.45 GHz bands, were identified as potential “communication bands”. Furthermore, long-term and short-term cycles of the total radiation intensity within the band were observed over the course of the experiment.

So this recent study indicates that bacterial cells in biofilms may use electromagnetic signals to communicate which are of the similar type as our own cell phone and WiFi signals! Biofilms are one of the most ubiquitous forms of biological systems on earth, and are commonly associated with infectious diseases. They are also responsible for contamination of medical devices and implants, deterioration of water quality, and microbial-induced corrosion.

This work confirms the presence of electromagnetic radiation within bacterial communities, which is a key requirement to demonstrate electromagnetic signalling among bacterial cells. The insight could lead to breakthroughs in demystifying how cells communicate as well as the advancement of important technologies in biology and communication systems. But, much more importantly, this is a very firm and strong warning to mankind to stop playing with biology here on Earth – we may have to very profoundly regret it.

My personal comment to this is: just imagine what our man-made high-frequency signals, used by cell phones, wireless smart meters, WiFi systems, wireless baby alarms, DECT phones, Internet of Things (IoT), Internet of Bodies (IoB), and many more gadgets/installations/systems, delivered at colossal power levels compared to the natural ones, may do to these intricate communicative mechanisms!

The above may, in addition – if replicated by independent scientists in further controlled studies – explain the observed occurrence of antibiotic resistance after exposures of common bacteria, like Listeria monocytogenes and Escherichia coli, to the radiation of 2G mobile telephony or WiFi-router fields (cf. above; see also Johansson 2017).

Soil bacteria are also affected by radiation from mobile phone towers

It must also be noted that Sharma Antim Bala and coworkers (2018) have demonstrated the impact of the radiations transmitted by mobile tower base stations on microbial diversity in soil and antibiotic resistance patterns. Soil samples were taken from near four different base stations located in Dausa City, India, while control samples were taken far from any base stations.

Isolation and identification of microorganisms were done using biochemical reactions and antibiotic resistance was observed. Stenotrophomonas maltophilia, Chryseobacterium gleum, and Kocuria rosea were isolated and identified in soil samples collected near radiation-exposed zones.

A statistically significant greater antibiotic resistance was observed in microbes present in the soil near base stations compared to the control, using nalidixic acid and cefixime as antimicrobial agents (p<0.05). The authors stated that ”our findings suggest that mobile tower radiation can significantly alter the vital systems in microbes and turn them multidrug-resistant, which is the most important current threat to public health”.

With the ongoing huge and highly frightening development into more and more antibiotics-resistant microorganisms around the world, this adaptive phenomenon and its potential threats to human health, according to my view, definitely and rapidly should be further investigated in controlled replication experiments, rather than only spend money and time on national action plans, commercially lowering the prizes, and flying to Mars!

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The functional impairment electrohypersensitivity, food, bacteria, and artificial radiation

Finally, it should be noted that people with severe electrohypersensitivity have noticed a direct relationship between the severity of their functional impairment and sugar ingested (not white sugar, but sugary food), and as a result, heightened levels of electromagnetic field sensitivity. Such a direct relationship to their diet/internal bad gut load just from one day of cheating on a diet can result in a massively overwhelming and irritating increase of the electromagnetic field sensitivity during the next day.

So the impact on gut bacteria (E. coli; Candida albicans?) by diet perhaps may trigger attacks of electrohypersensitivity?

Will this also be a symptom of bacteria with a deranged communication due to the impacts of artificial electromagnetic fields and signals from our ’smart’ world, the latter thus being not-so-smart? Perhaps it is high time to start de-smarting our life and our environment, and instead start listening carefully to our bacteria? Maybe they are trying to tell us something?

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Via https://newsvoice.se/2025/01/radiation-exposed-bacteria/