The age-old adage First Do No Harm should be the tempering goal of not only medicine, but government and industry, especially when they team up to deploy new technologies, set policies and serve the people.

This blog exists to reveal and analyze areas in which these powerful groups are failing to "first do no harm."

Friday, May 20, 2011

Electromagnetic Field Sensitivity proven in 1991 study

This study is one of the many that are conveniently ignored by people who say electromagnetic field sensitivity is psychological, not biological/physical.

Electromagnetic Field Sensitivity
William J. Rea, MD, FACS
Environmental Health Center, Dallas
8345 Walnut Hill Lane, Suite 205
Dallas, TX 75231

Yaqin Pan, MD
Dept. of Allergy, Beijing Union Medical College Hospital Beijing, PRC

Ervin J. Yenyves, PhD
Dept. of Physics, University of Texas at Dallas

Iehiko Sujisawa, MD. and Hideo Suyama, MD
Dept. of Ophthamology, Kitasato University Kitasato, Japan

Nasrola Samadi, PhD
Jacksonville State University, Jacksonville, Florida

Gerald H. Ross, M.D., CCFP
Environmental Health Center, Dallas
http://www.aehf.com/articles/em_sensitive.html
This article was first published in 1991 in the Journal of Bioelectricity, 10(1&2), 241-256. Figure 1is not included here, but can be obtained by writing Dr. W. J. Rea at the Environmental Health Center, Dallas, 8345 Walnut Hill Lane, Suite 205, Dallas, TX 75231.

Abstract
A multiphase study was performed to find an effective method to evaluate electromagnetic field (EMF) sensitivity of patients. The first phase developed criteria for controlled testing using an environment low in chemical, particulate, and EMF pollution. Monitoring devices were used in an effort to ensure that extraneous EMF would not interfere with the tests. A second phase involved a single-blind challenge of 100 patients who complained of EMF sensitivity to a series of fields ranging from 0 to 5 MHz in frequency, plus 5 blank challenges. Twenty-five patients were found who were sensitive to the fields, but did not react to the blanks. These were compared in the third phase to 25 healthy naive volunteer controls. None of the volunteers reacted to any challenge, active or blank, but 16 of the EMF-sensitive patients (64%) had positive signs and symptoms scores, plus autonomic nervous system changes. In the fourth phase, the 16 EMF-sensitive patients wer rechallengd twice to the frequencies to which they were most sensitive during the previous challenge. The active frequency was found to be positive in 100% of the challenges, while all of the placebo tests were negative. We concluded that this study gives strong evidence that electromagnetic field sensitivity exists, and can be elicited under environmentally controlled conditions.


Low level microwaves condition rat behavior in study

Abstract
Rats assayed by the technique of conditional suppression were able to detect the presence of 12.25-centimeter microwaves at doses of power approximating 0.5 to 6.4 milliwatts per gram. The assay, which controlled for sensitization, for pseudo and temporal conditioning, and for several possible sources of artifactual cueing, revealed that irradiation by microwaves, although lacking the saliency of an auditory stimulus, can function as a highly reliable cue. Efficiency of detection was strongly and positively related to the amount of microwave energy to which the rats were exposed.

Rats can sense microwaves and be conditioned by them. But humans cannot feel or sense microwaves because, uh. Because, uh, maybe rats are just more sensitive than humans?

Sunday, May 1, 2011

Metastasizing Microwaves: How Did We Get Here and what Does It Mean?

Everyone who would like to see how we got to such a point where microwaves virtually blanket our daily world, read this excellent summary that spans 1977 to 2010 by Arthur Firstenberg.

So, do we read it and weep?
No, read it and speak.
Read it and speak up, stand out and shout.
Read it and write. Spew it and join together and fight.
Do not go gentle into that good night!

Friday, May 20, 2011

Electromagnetic Field Sensitivity proven in 1991 study

This study is one of the many that are conveniently ignored by people who say electromagnetic field sensitivity is psychological, not biological/physical.

Electromagnetic Field Sensitivity
William J. Rea, MD, FACS
Environmental Health Center, Dallas
8345 Walnut Hill Lane, Suite 205
Dallas, TX 75231

Yaqin Pan, MD
Dept. of Allergy, Beijing Union Medical College Hospital Beijing, PRC

Ervin J. Yenyves, PhD
Dept. of Physics, University of Texas at Dallas

Iehiko Sujisawa, MD. and Hideo Suyama, MD
Dept. of Ophthamology, Kitasato University Kitasato, Japan

Nasrola Samadi, PhD
Jacksonville State University, Jacksonville, Florida

Gerald H. Ross, M.D., CCFP
Environmental Health Center, Dallas
http://www.aehf.com/articles/em_sensitive.html
This article was first published in 1991 in the Journal of Bioelectricity, 10(1&2), 241-256. Figure 1is not included here, but can be obtained by writing Dr. W. J. Rea at the Environmental Health Center, Dallas, 8345 Walnut Hill Lane, Suite 205, Dallas, TX 75231.

Abstract
A multiphase study was performed to find an effective method to evaluate electromagnetic field (EMF) sensitivity of patients. The first phase developed criteria for controlled testing using an environment low in chemical, particulate, and EMF pollution. Monitoring devices were used in an effort to ensure that extraneous EMF would not interfere with the tests. A second phase involved a single-blind challenge of 100 patients who complained of EMF sensitivity to a series of fields ranging from 0 to 5 MHz in frequency, plus 5 blank challenges. Twenty-five patients were found who were sensitive to the fields, but did not react to the blanks. These were compared in the third phase to 25 healthy naive volunteer controls. None of the volunteers reacted to any challenge, active or blank, but 16 of the EMF-sensitive patients (64%) had positive signs and symptoms scores, plus autonomic nervous system changes. In the fourth phase, the 16 EMF-sensitive patients wer rechallengd twice to the frequencies to which they were most sensitive during the previous challenge. The active frequency was found to be positive in 100% of the challenges, while all of the placebo tests were negative. We concluded that this study gives strong evidence that electromagnetic field sensitivity exists, and can be elicited under environmentally controlled conditions.


Low level microwaves condition rat behavior in study

Abstract
Rats assayed by the technique of conditional suppression were able to detect the presence of 12.25-centimeter microwaves at doses of power approximating 0.5 to 6.4 milliwatts per gram. The assay, which controlled for sensitization, for pseudo and temporal conditioning, and for several possible sources of artifactual cueing, revealed that irradiation by microwaves, although lacking the saliency of an auditory stimulus, can function as a highly reliable cue. Efficiency of detection was strongly and positively related to the amount of microwave energy to which the rats were exposed.

Rats can sense microwaves and be conditioned by them. But humans cannot feel or sense microwaves because, uh. Because, uh, maybe rats are just more sensitive than humans?

Sunday, May 1, 2011

Metastasizing Microwaves: How Did We Get Here and what Does It Mean?

Everyone who would like to see how we got to such a point where microwaves virtually blanket our daily world, read this excellent summary that spans 1977 to 2010 by Arthur Firstenberg.

So, do we read it and weep?
No, read it and speak.
Read it and speak up, stand out and shout.
Read it and write. Spew it and join together and fight.
Do not go gentle into that good night!