Dr. Sam Milham: Pioneer in EMF Research and the Discovery of Dirty Electricity
Dr. Samuel Milham, born on October 18, 1929, is a distinguished epidemiologist and scientist known for his groundbreaking work in the field of electromagnetic fields (EMF) and the discovery of “dirty electricity.” Throughout his career, Dr. Milham has played a pivotal role in advancing our understanding of the health effects of EMF exposure, particularly from electrical systems and devices. His research and advocacy have had a profound impact on public awareness and policy discussions surrounding EMF safety.
Early Life and Education:
Dr. Sam Milham was born in Santa Barbara, California. He obtained his Bachelor of Arts degree from the University of California, Berkeley, in 1951 and went on to earn his Doctor of Medicine (MD) from Tulane University in 1956. Following his medical training, he completed his Master of Public Health (MPH) in epidemiology from the University of Minnesota in 1961.
Career in Epidemiology:
Dr. Milham’s career in epidemiology began with a focus on occupational medicine. He served as an epidemiologist in the Washington State Department of Health for over two decades, where he conducted numerous studies on occupational health and environmental factors. His work during this period led to the publication of several influential papers on occupational diseases and exposure assessment.
Discovery of Electrification and Health Effects:
In the late 1970s, while investigating a cluster of leukemia cases among workers in a rubber plant, Dr. Milham stumbled upon a critical connection between electrification and health. He noticed that the workers who developed leukemia tended to work in parts of the plant that had high levels of electrical exposures, including exposure to “dirty electricity.”
Dirty Electricity and Health Implications:
Dr. Milham’s groundbreaking research led to the discovery of “dirty electricity,” which refers to electrical pollution in the form of high-frequency voltage transients and harmonics on electrical wiring. These electrical disturbances are generated by various electronic devices and non-linear loads. His studies suggested that dirty electricity might be linked to a range of adverse health effects, including cancer, diabetes, and neurological conditions.
Want to Slash Your EMF Health Risks?
Want to Slash Your EMF Health Risks?
Good! Learn the one small change you should make right now.
Advocacy and Public Awareness:
Driven by his research findings, Dr. Milham became a vocal advocate for EMF safety and the reduction of dirty electricity. He published extensively on the topic and authored the book “Dirty Electricity: Electrification and the Diseases of Civilization,” which delves into the potential health risks associated with electrical pollution.
Dr. Milham’s advocacy efforts include raising public awareness about the health implications of dirty electricity and promoting the use of filters to reduce electromagnetic pollution in homes and workplaces. His work has contributed to discussions about the need for stricter standards and regulations regarding EMF exposure.
For more detailed information about Dr. Sam Milham’s life and contributions, you can visit his official website.
Legacy and Impact:
Dr. Sam Milham’s pioneering research on EMF and the discovery of dirty electricity have had a lasting impact on our understanding of the potential health effects of electromagnetic pollution. His work has sparked ongoing discussions among scientists, policymakers, and the public about the importance of EMF safety and the need to mitigate exposure to electrical pollution.
As the use of electronic devices and electrical systems continues to grow, Dr. Milham’s advocacy for reducing dirty electricity and his commitment to protecting public health serve as a significant legacy in the field of EMF research. His efforts continue to influence research, policy development, and public awareness surrounding EMF safety, ensuring that the potential risks associated with electromagnetic pollution are thoroughly examined and addressed.
