Artificial EMG by WLAN-Exposure

The experiment detects the pulses of 10 Hz that the Wi-Fi router generates [1] ("In the absence of data traffic, only the access point transmits a short beacon signal, every 100 ms, which corresponds to a pulse rate of 10 Hz.") in the nerves of exposed humans:

" Background: By a diagnostic routine of a "burn-out"-patient, additionally claiming an electrosensitivity, there was tested the nervous system electromyogram (EMG), recording from the lower arm skin surface, As well in the time series as by analyzing the frequency we found an artificial l0 Hz-component as a dominant signal. By the following anamnestic discussion, the patient told about a longtime exposure to active WLAN equipment in office. Testing other patients using this cornmunication technique, there was a great number with the same 10 Hz-artifact in EMG. WLAN itself is characterized by a l0 Hz-modulated high-frequency signal. The measured EMG-data demonstrate the conflicts with the ICNIRP safety guidelines for this type of electromagnetic exposures. Because of these data with artifacts in EMG we tested patients with different healthy disorders by WLAN-exposure." {Credits 1}

So in the current experiments they expose patients to wi-fi to confirm the phenomenon, having the test person no information of Wi-Fi 'on/off'.

In patient A:

" These data demonstrate the 10 Hz-artifacts of EMG-trace during and after exposure. The patient claimed a reaction during exposure like heart troubles. This healthy effect disappears about 20 min alter exposure." {Credits 1}

In patient B:

" As well in the first control as during and after WLAN-exposure there was monitored an EMG-trace superimposed by a 10 Hz signal. This patient reported about increasing headaches during "home-office" activity." {Credits 1}

In patient C:

" This patient reported about many healthy disorders during working hours in open-plan office. In the control before exposure, there was detected the 10 Hz-artifact. In this case, this artificial signal disappears during exposure." {Credits 1}

Conclusions:

" The influences in EMG during and after WLAN-exposure are obviously depending of the individual biosystem as demonstrated by the different data. That means: there is no uniform effect on EMG by WLAN-exposure. But this effect must be discussed about the consequence of artificial signals in the nervous system and influences on following biofunctions.

The demonstrated data point to the necessary for a new discussion about healthy effects by low-energetic electromagnetic exposures. This especially under the background of WlAN-exposure in "horne-office" or in schools by 'digital-learning'." {Credits 1}

[1] Dongus, S., Jalilian, H., Schürmann, D., & Röösli, M. (2021). Health effects of WiFi radiation: a review based on systematic quality evaluation. Critical Reviews in Environmental Science and Technology, 1-20.

{Credits 1} 🎪 Von Klitzing, L. (2021). Artificial EMG by WLAN-exposure. J. Biostat. Biometric App, 6, 101. This is an open access article under the Creative Commons Attribution License.