1) When Science Fiction Becomes Science Fact:
Electromagnetism and Life
Description
This first time synthesis by a
physician/scientist nullifies the 1910 Flexner Report charge of “irregular
science” against electromagnetism by explaining the basic principles of
electromagnetic control of cell function. Scheduled as a keynote presentation at
the prestigious 2008 IEEE sponsored meeting (www.icbbe.org) on bioinformatics to
be held in Shanghai, it lays to rest “you don’t know the mechanism” so often
leveled against this universal force. Linus Pauling preceded Stephen Hawking in
establishing electromagnetism’s control of chemical reactions, biologic
response, and life itself but the precise mechanism underlying that control had
not been defined until this paper. A new approach in the treatment of illness
and trauma awaits its wider understanding.
Newswise —
“Electromagnetism Controls All Chemical Reactions, All Biological
Response. Life Itself”
-- Stephen Hawking (A Brief History of Time)
This report reflects 25 years of nanosecond pulsed electromagnetic field
(nPEMF) investigation, and an interdisciplinary synthesis based upon
experimental reports since the 1970s. Electromagnetic fields drive a classic
resonance system as forcers that are magneto-acoustically transduced (damped) by
paramagnetic-diamagnetic elements to create a phonon driven, non-linear
information system, which is iteratively processed by beta sub-units to prime
protein conformational adaptive response (folding) of alpha sub-units. This low
voltage information system sets the stage for the ATP power system to transport
ions and substrate through appropriate channels, regulates DNA, and enhances
protein enzyme activity in support of homeostasis. Cell function reflects dual
energy systems: 1) a low voltage information circuit guided by principles of
physics to control cell function, and 2) a power circuit driving chemical
outcomes to complete it.
Dipole forces generate phonons when paramagnetic and diamagnetic elements and
small molecules, e.g. amino acids, constrained within a protein matrix,
oscillate about their bond lengths to become magneto-acoustic transducers in
response to natural or artificial EM fields. When damped within physiologic
parameters such transductions conduct heat and sound through proteins in a
native (elementary) mode at the speed of sound. While sub-threshold in
themselves they achieve resonance with similar phonon harmonics from other
strategically self-assembled paramagnetic/diamagnetic constructs (PDCs) within
the protein to enhance signal intensity several magnitudes (Kruglikov and
Dertinger, 1994.) DNA, and other proteins posses a sophisticated capacity to
electively combine such harmonics with other “noise”, i.e. stochastic resonance,
to enhance their activity in support of cell function.
Dr. Gordon's paper, entitled “Protein Iteration and Cellular Response to
Extrinsic Electromagnetic Forces,” is available on the Web site of The 2nd
International Conference on Bioinformatics and Biomedical Engineering at http://www.icbbe.org/icbbe2008submission/website/icbbe/keynoteSpeakers.htm
For More Information
Dr. Glen Gordon is President and CEO of EM-Probe Technologies, Inc. www.em-probe.com which has applied his
nanosecond pulsed EM field technology to inexpensive electrotherapy products
which really work. - Ed. Note
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