Читать книгу Anti-Aging Therapeutics Volume XV - A4M American Academy - Страница 35

A 57-year old female with type 2 diabetes does not take medication and controls her blood sugar by diet and exercise. Her exercise of choice is walking. Irrespective of how high her blood sugar is when she starts her walk, her blood sugar drops to normal (around 7 mmol/L or 126 mg/dL) by the time she ends her walk 20-minutes later. If she exercises on a treadmill for 20-minutes, her blood sugar increases repeatable to just under 12 mmol/L or 210 mg/dL. So despite her body’s need for fuel (sugar) the treadmill generates electrosmog in the form of a high magnetic field and dirty electricity and, as someone who is sensitive, this stresses her body generating higher plasma glucose levels (Fig. 2).⁸

Figure 2. 57-year-old female with type 2 diabetes uses exercise (walking) to control plasma glucose. Levels of plasma glucose drop to 7 mmol/L (126 mg/dL) after a 20-minute walk outdoors. They increase to 12 mmol/L (216 mg/dL) after a 20-minute walk on a treadmill that generates electrosmog in the form of dirty electricity and a high magnetic field.

There are two types of diabetes recognized by western medicine: Type 1 diabetes, also known as juvenile on-set diabetes, appears to be genetically controlled, is detected relative early in life, and requires medication. Type 2 diabetes, or adult-onset diabetes, is linked to a sedentary lifestyle, consuming the wrong type of food, and gaining weight – especially around the middle – that leads to impaired glucose metabolism.

There may be a third type of diabetes (type 3) that is triggered by exposure to an environmental stressor like electrosmog resulting in elevated blood sugar as shown in the example above.⁸ Indeed, those who have brittle diabetes and are unable to regulate their blood sugar may be responding to changes in the environment that causes the blood sugar to rise or fall making regulation truly challenging.

Doctors need to be aware that the environment may alter blood sugar for those with electrical sensitivity. For this reason it is essential that electromagnetic hygiene be practiced at medical centers and that these centers be kept electrosmog-free so the environment doesn’t influence the plasma glucose levels and other symptoms patients may experience. Also, exercise with electronic equipment may be an unhealthy form of exercise for those who are sensitive but this equipment may provide a useful diagnostic tool for diabetics with electrical sensitivity.

The rate of increase in both type 1 and type 2 diabetes cannot be explained entirely by changes in lifestyle and genetics. Some environmental trigger with epigenetic consequences or some other mechanism may be at play here and this environmental trigger may be our ever-increasing exposure to electrosmog.⁸