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Can EMFs Cause Autism?

Research suggests that exposure to Electromagnetic Fields could be partially responsible for the huge increase in autism in this country

by Andrew Goldsworthy

Autism is a group of life-long disorders (autistic spectrum disorders or ASD) caused by brain malfunctions, associated with subtle changes in brain anatomy. The core symptoms are an inability to communicate adequately with others and include abnormal social behaviour, poor verbal and non-verbal communication, unusual and restricted interests, and persistent repetitive behaviour. There are also non-core symptoms, such as an increased risk of epileptic seizures, anxiety and mood disorders. ASD has a strong genetic component, occurs predominantly in males, and tends to run in families.

Autism May be Caused by Calcium Entering Neurons

It has been hypothesised that some genetic forms of ASD can be accounted for by known mutations in the genes for ion channels that result in an increased background concentration of calcium in neurons. This would be expected to lead to neuronal hyperactivity, the formation of sometimes unnecessary and inappropriate synapses, which in turn can lead to ASD.
Electromagnetic fields let calcium into neurons too. There has been a 60-fold increase in ASD in recent years, which cannot be accounted for by improvements in diagnostic methods and can only be explained by changes in the environment. This increase corresponds in time to the proliferation of mobile telecommunications, WiFi, and microwave ovens-as well as extremely low frequency fields from mains wiring and domestic appliances. We can now explain this in terms of electromagnetically-induced membrane leakage leading to brain hyperactivity and abnormal brain development.
The first effect of non-ionising electromagnetic radiation is to generate small alternating voltages across the cell membranes, which destabilize them and make them leak. This can have all sorts of consequences as unwanted substances diffuse into and out of cells unhindered, and materials in different parts of the cell that are normally kept separate become mixed.

Weak Fields are More Damaging than Strong Ones

We have known since the work of Suzanne Bawin and her co-workers (Bawin et al. 1975) that modulated radio-frequency electromagnetic radiation that is far too weak to cause significant heating can nevertheless remove calcium ions (positively charged calcium atoms) from cell membranes in the brain. In the 1980's, Carl Blackman showed that this also occurs with extremely low frequency electromagnetic radiation, but only within one or more "amplitude windows" above and below which there is little or no effect. (Blackman et al. 1982; Blackman 1990)
A proposed molecular mechanism for this can be found in my work. (Goldsworthy 2010). In particular, it explains why weak electromagnetic fields can have a greater effect than strong ones and why prolonged exposure to weak fields (where cells are maintained in the unstable condition for longer) is potentially more damaging than relatively brief exposure to much stronger ones.
This loss of calcium is important because calcium ions bind to and stabilize the negatively charged membranes of living cells. They sit between the negatively charged components of the cell membrane and bind them together rather like mortar binds together the bricks in a wall. Loss of just some of these calcium ions destabilize the membrane and make it more inclined to leak, which can have serious metabolic consequences. Among these are the effects of membrane leakage on the neurons of the brain.

How Membrane Leakage Affects Neurons

Neurons transmit information between one another in the form of chemical neurotransmitters that pass across the synapses where they make contact. However, the release of these is normally triggered by a brief pulse of calcium entering the cell. If the membrane is leaky due to electromagnetic exposure, it will already have a high internal calcium concentration, as calcium leaks in from the much higher concentration outside. The effect of this is to put the cells into hair-trigger mode so that they are more likely to release neurotransmitters and the brain as a whole may become hyperactive (Beason and Semm 2002; Krey and Dolmetsch 2007, Volkow et al. 2011). This may not be a good thing since the brain may become overloaded, leading to a loss of concentration and what we now call Attention Deficit Hyperactive Disorder (ADHD).
Before and just after its birth, a child's brain is essentially a blank canvas, and it goes through an intense period of learning to become aware of the significance of all of its new sensory inputs (e.g. to recognise its mother's face, her expressions and eventually other people and their relationship to him/her). During this process, the neurons in the brain make countless new connections, the patterns of which store what the child has learned. However, after a matter of months, connections that are rarely used are pruned automatically so that those that remain are hard-wired into the child's psyche. The production of too many and often spurious signals due to electromagnetic exposure during this period will generate frequent random connections, which will also not be pruned, even though they may not make sense. It may be significant that autistic children tend to have slightly larger heads, possibly to accommodate unpruned neurons (Hill & Frith 2003).
Because the pruning process in electromagnetically-exposed children may be more random, it could leave the child with a defective, hard-wired mind set for social interactions, which may then contribute to the various autistic spectrum disorders. These children are not necessarily unintelligent; they may even have more brain cells than the rest of us and some may actually be savants. They may just be held back from having a normal life by a deficiency in the dedicated hard-wired neural networks needed for efficient communication with others.
A useful analogy might be in the socialization of dogs. If puppies do not meet and interact with other dogs within the first four months of their life (equivalent to about two human years), they too develop autistic behaviour. They become withdrawn, afraid of other dogs and strangers, and are incapable of normal "pack" behaviour. Once this four-month window has passed, the effect seems to be irreversible (just like autism). If this anology is correct, it could hold the key to the investigation of autism and its possible links with electromagnetic exposure.

Reprinted with permission from www.electromagnetichealth.org

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