Emf Dirty Electricity: A Link To Diabetes?

does emf dirty electricity contribute of diabetes

The increasing prevalence of diabetes globally has been linked to several factors, including the ubiquitous nature of electromagnetic pollution. Transient electromagnetic fields, commonly known as dirty electricity, have been identified as potential contributors to elevated blood sugar levels among diabetics and prediabetics. This phenomenon, caused by electronic equipment and wireless devices, has led to investigations into its impact on blood glucose levels and potential implications for diabetes management. Understanding the connection between dirty electricity and diabetes is crucial for effective prevention, diagnosis, and treatment strategies.

Characteristics Values
Transient electromagnetic fields Transient electromagnetic fields (dirty electricity) in the kilohertz range on electrical wiring
Impact on blood sugar levels May contribute to elevated blood sugar levels among diabetics and pre-diabetics
Impact on insulin levels Type 1 diabetics require less insulin in an electromagnetically clean environment
Impact on plasma glucose levels Type 2 diabetics have lower levels of plasma glucose in an electromagnetically clean environment
Sources of dirty electricity Electronic equipment, wireless devices, treadmills
Impact on medical diagnosis Exposure to electromagnetic pollution may contribute to the misdiagnosis of diabetes
Impact on medical care costs The increasing incidence of diabetes due to electromagnetic pollution contributes to escalating medical care costs
Type 3 diabetes A third type of diabetes may be environmentally exacerbated or induced by exposure to electromagnetic frequencies
Global impact As many as 5-60 million diabetics worldwide may be affected by dirty electricity

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Transient electromagnetic fields (dirty electricity) in the kilohertz range on electrical wiring may cause elevated blood sugar levels in diabetics

Transient electromagnetic fields, or "dirty electricity", in the kilohertz range on electrical wiring may contribute to elevated blood sugar levels in diabetics. This is due to the increasing exposure to electromagnetic pollution, which is generated by electronic equipment and wireless devices.

Dirty electricity is a form of energy generated by electronic devices and wireless technology, such as computers, televisions, appliances, and phones. It is present in both urban and rural environments and can be found in homes and workplaces. This type of energy can have biological and health effects, even at levels below international guidelines.

Several studies have found a link between exposure to dirty electricity and elevated blood sugar levels in diabetics. In one study, four individuals with Type 1 and Type 2 diabetes were monitored, and it was found that their blood sugar levels responded directly to the amount of dirty electricity in their environment. When these individuals were placed in an electromagnetically clean environment, Type 1 diabetics required less insulin, and Type 2 diabetics exhibited lower levels of plasma glucose.

Additionally, exercise on a treadmill, which produces dirty electricity, was found to increase plasma glucose levels. This may explain why some diabetics struggle to regulate their blood sugar levels and could be a factor in the increasing incidence of diabetes globally.

By reducing exposure to dirty electricity or using GS filters, diabetics may be able to better manage their blood sugar levels and potentially reduce their medication requirements.

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Reducing exposure to electromagnetic pollution may help diabetics regulate their blood sugar with less medication

Transient electromagnetic fields (dirty electricity) in the kilohertz range on electrical wiring may be contributing to elevated blood sugar levels among diabetics and prediabetics. This is supported by studies that closely followed plasma glucose levels in four Type 1 and Type 2 diabetics, finding that they responded directly to the amount of dirty electricity in their environment. In an electromagnetically clean environment, Type 1 diabetics required less insulin, and Type 2 diabetics had lower levels of plasma glucose.

Dirty electricity is generated by electronic equipment and wireless devices, which are ubiquitous in the environment. This includes computers, energy-efficient lighting and appliances, wireless routers, and even treadmills. As such, our increasing reliance on electronic devices and wireless technology is contributing to an unprecedented increase in our exposure to electromagnetic frequencies.

The impact of dirty electricity on blood sugar levels may explain why some diabetics have difficulty regulating their blood sugar, a condition known as brittle diabetes. By reducing exposure to electromagnetic pollution through avoidance or the use of GS filters, diabetics may be able to better regulate their blood sugar with less medication. This is supported by a case study of a 57-year-old female with Type 2 diabetes, who was able to more than halve her insulin intake after installing GS filters in her home to reduce dirty electricity.

Additionally, borderline or prediabetics may be able to delay the onset of diabetes by reducing their exposure to electromagnetic pollution. This is significant, as diabetes is increasing globally, with an expected prevalence of 4.5% of the global population by 2030. By reducing our exposure to dirty electricity, we may be able to mitigate the impact of this growing health concern.

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The increasing exposure to electromagnetic pollution may be contributing to the increasing incidence of diabetes

Dirty electricity is generated by electronic equipment and wireless devices, and is now ubiquitous in the environment. Our increasing reliance on electronic devices and wireless technology is contributing to an unprecedented increase in our exposure to a broad range of electromagnetic frequencies. This includes computers, energy-efficient lighting, and appliances in the home, as well as nearby cell phone and broadcast antennas.

The impact of dirty electricity on blood sugar levels has been observed in various studies. For example, one study found that a 51-year-old male with Type 2 diabetes exposed to different levels of power quality recorded a very high plasma glucose reading during a period of high exposure to dirty electricity. Another study of a 57-year-old female with Type 2 diabetes found that walking on a treadmill in an electromagnetically dirty environment increased her plasma glucose levels, while installing GS filters in her home to improve power quality more than halved her insulin intake.

The impact of dirty electricity on blood sugar levels has led to suggestions that it may be a factor in the increasing incidence of diabetes. It may also contribute to the misdiagnosis of diabetes, as most medical centres have electronic equipment and fluorescent lights that produce dirty electricity, which can cause abnormally high blood sugar readings. Reducing exposure to electromagnetic pollution through avoidance or the use of GS filters may enable some diabetics to better regulate their blood sugar and reduce their medication intake.

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Type 1 and Type 2 diabetics respond directly to the amount of dirty electricity in their environment

The increasing exposure to electromagnetic pollution, or "dirty electricity," in daily life may be contributing to the rising incidence of diabetes and the increasing cost of medical care. Electronic equipment and wireless devices, such as computers, televisions, and mobile phones, are common sources of dirty electricity in the environment.

Transient electromagnetic fields (dirty electricity) in the kilohertz range on electrical wiring may contribute to elevated blood sugar levels in diabetics and prediabetics. Studies have found that both Type 1 and Type 2 diabetics respond directly to the amount of dirty electricity in their environment. In an electromagnetically clean environment, Type 1 diabetics require less insulin, while Type 2 diabetics exhibit lower levels of plasma glucose.

For example, a study involving a 51-year-old male with Type 2 diabetes showed that time spent in front of a computer resulted in higher plasma glucose levels. However, these levels dropped 1.1 mmol/L (19.8 mg/dL) just 10 minutes after moving away from the computer. Similarly, a 57-year-old female with Type 2 diabetes exhibited higher plasma glucose levels after walking on a treadmill, which produces dirty electricity.

In another case, an 80-year-old woman with Type 1 diabetes experienced a reduction in her daily insulin injections after GS filters were installed in her home to improve power quality. This demonstrates how reducing exposure to electromagnetic pollution can help diabetics regulate their blood sugar more effectively.

These findings suggest that the electromagnetic fields generated by electronic devices and exercise equipment can influence blood sugar levels in diabetics. As a result, it may be beneficial for diabetics to limit their exposure to dirty electricity to help manage their condition.

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Treadmills produce dirty electricity, which increases plasma glucose levels

There is a positive correlation between exposure to electromagnetic pollution and higher plasma glucose levels. Transient electromagnetic fields, or "dirty electricity", in the kilohertz range on electrical wiring, have been found to contribute to elevated blood sugar levels among diabetics and prediabetics. In an electromagnetically clean environment, Type 1 diabetics require less insulin and Type 2 diabetics have lower levels of plasma glucose.

Dirty electricity is generated by electronic equipment and wireless devices, and is present in many environments. Treadmills produce dirty electricity, and exercise on a treadmill increases plasma glucose levels. This may be why some diabetics struggle to regulate their blood sugar levels.

The Verde treadmill by SportsArt is an example of a treadmill that generates electricity as the user runs. It creates up to 200 watts of electricity per hour through a micro-inverter built into the machine. This is achieved by harnessing the user's kinetic energy. While this is an example of a treadmill that produces electricity, it is not clear whether the electricity produced is "dirty".

Treadmills can also produce static electricity, which is a different phenomenon to the "dirty electricity" described above. Static electricity can be reduced by avoiding nylon clothing, using anti-static spray, and ensuring that shoes do not have metal in their soles and that the rubber is not worn.

Frequently asked questions

Transient electromagnetic fields (dirty electricity) in the kilohertz range on electrical wiring may be contributing to elevated blood sugar levels among diabetics and pre-diabetics.

In an electromagnetically clean environment, Type 1 diabetics require less insulin and Type 2 diabetics have lower levels of plasma glucose.

Dirty electricity is generated by electronic equipment and wireless devices, such as computers, energy-efficient lighting, and appliances.

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