Tuesday, June 25, 2019

Defibrillators

One of the most distressing and downright dangerous aspects of man-made electromagnetic radiation is its ability to upset the beating of the heart. When the heart's electrical rhythm is disrupted atrial fibrillation or tachycardia can result and the heart's ability to pump blood in a co-ordinated fashion is lost. 

Such a disorganised and chaotic state may spontaneously correct itself however if the heart is unable to restore its muscular synchronisation within a few minutes, minimal blood flow will starve not only the brain but the heart as well. 

Unless order is swiftly restored, the person dies.

Defibrillators are made to stop the heart – dead, using a single powerful electric shock. The expectation is that once the heart's ineffectual tremblings are stopped, its two internal pacemakers (SA & AV nodes) will spontaneously restore proper synchronised function and normal blood flow will resume. 

Sadly that is not always the case.

The heart (and the brain) are controlled by very small signals making both susceptible to even low-level pulsed electromagnetic radiation. Rather than address the effects of electro-pollution and particularly the rise in atrial fibrillation and tachycardia, a technological fix that can be sold to communities across the world is now being rolled-out.

As our world becomes more saturated with always-on, pulsed digital, microwave radiation from Tetra / 2G / 3G / 4G-ESN / 5G masts, the Internet of Things (IoT) and the thousands of transmitting low earth satellites presently being deployed, quick access to a defibrillator may become crucial to survival.

In the meantime, routinely minimising cumulative in-home/at-work/in-car electromagnetic exposure may lessen the chance of such life-threatening traumas happening to you or your loved ones.

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