Tuesday, December 06, 2011

Dangers of Wi-Fi in Schools

Dangers of Wi-Fi in Schools
alert'Wi-Fi should be considered as an impediment rather than an aid to learning and may be particularly hazardous for pregnant teachers.'
Dr Andrew Goldsworthy - November 2011
Most of the damage done by digital telecommunications is not due to heating but by the electrical effect their pulsating signals have on living tissues, which occurs at much lower energy levels.
The human body can act as an antenna and the signals make electric currents flow through it in time with the pulsations. It is this that does the bulk of the damage by destabilising the delicate membranes that surround each cell and also divide it into internal compartment such as mitochondria (the energy factories of the cell) and the lysosomes (the cell’s recycling factories).
All of these membranes are just two molecules thick and have a similar basic structure. They are
liquid crystals, made largely of negatively charged molecules (which repel one another) stabilised by divalent positive ions (mostly calcium) that sit in between them by mutual attraction and hold them together like mortar holds together the bricks in a wall.
It was first shown by Bawin et. al. in the 1970s that weak amplitude modulated radio waves, where the strength of the signal rises and falls at low frequencies, could remove some of this calcium from brain cell membranes. This destabilises them and make them more likely to leak. The low frequency pulsations of Wi-Fi and mobile phone signals can be expected to behave in much the same way.-
This is important in the brain because the normal function of brain cells depends on the controlled passage of specific ions through their membranes. When these membranes leak, ions flow through them in a relatively uncontrolled way, which results in brain hyperactivity and may cause attention deficit hyperactivity disorder (ADHD) in some people. When this occurs in the brain of a foetus or very young child it prevents normal brain development, which may result in autism (see http://mcsamerica. org/june2011pg2345.pdf ) . Wi-Fi should therefore be considered as an impediment rather than an aid to learning and may be particularly hazardous for pregnant teachers.
Effects on the peripheral nervous system are equally damaging since hyperactivity here causes false sensations such as pain, heat, cold, and pins and needles in some people (i.e. symptoms of electromagnetic hypersensitivity). Hyperactivity in the cells of the inner ear can cause tinnitus and affect the sense of balance causing dizziness and symptoms of motion sickness, including nausea.
Pupils showing any of these symptoms should be treated with sympathy and the Wi-Fi switched off.
Many other effects on health can be attributed to membrane leakage, including damage to DNA due to the release of reactive oxygen species (ROS) from mitochondria, and digestive enzymes from lysosomes. Such DNA damage can cause a loss of fertility and an increased risk of getting cancer.
Membrane leakage can also open the blood-brain barrier, leading to Alzheimer’s disease and early dementia. There are similar barriers protecting all of our body surfaces from foreign chemicals.
Damage to these can cause or exacerbate a variety of illnesses, including asthma, multiple allergies and autoimmune disorders such as multiple sclerosis. More on these, including references, can be found at
http://www.hese-project.org/hese-uk/en/papers/cell_phone_and_cell.pdf
Fortunately, because of genetic variability, not everyone will suffer the same symptoms and many may suffer none at all but, for the sake of those that do suffer, Wi-Fi is not a good idea in schools or anywhere else for that matter.
Andrew Goldsworthy BSc PhD is a retired lecturer from Imperial College London. He spent most of his career there, where he taught and researched a variety of topics ranging from plant and animal physiology and biochemistry to the ways in which living organisms use weak electric currents to control their growth and metabolism. These currents are due to specific ions flowing through cell membranes in a highly controlled way. Much of his work was on calcium ions, which are important in the control of metabolism and in maintaining the stability of cell membranes. His studies involved making measurements of the weak natural currents flowing into and out of living cells, looking at the ways in which artificial electric currents and electromagnetic fields affected them and also their consequences for normal growth and development. Following his retirement in 2004, he took a special interest in the effects of the radiation from mobile telecommunications on both animals and plants. The effects observed on plants preclude any possibility that they are of psychosomatic origin.

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