Previous studies indicated that UPE [ultraweak photon emission] measurement is a potential tool for meridian and acupuncture research. It was demonstrated by Yan et al. that the surface of the human body has 14 high-incidence rays, which are highly coincident with the 14 meridian routes (Yan et al., 1989). In addition, the luminescence of the acupuncture points of the 12 main meridians was higher than that of the non-acupuncture points (Yan et al., 1984). A significant change in luminescence intensity was also observed at the distal end of the Jing-Well Points associated with the acupuncture points after the needling of Qi (Yan et al., 1993). A significant difference was found in UPE between the left and right hands of patients with hemiparesis, with a left-right asymmetry characterized by a low UPE on the paralyzed side. However, the asymmetry was significantly improved after acupuncture treatment (Jung et al., 2003). Park et al. (2009) have also found that subjects showed significant changes in photon emission in the palm after magnetic needle stimulation. There is clearly some overlap between these UPE studies and the meridian theory of TCM.
The application and trend of ultra-weak photon emission in biology and medicine
It was observed that after the Ginseng treatment was applied, the elevated UPE was significantly reduced.
According to another study, Ginseng was also capable of reducing UPE intensity in mice with Spleen Qi deficiency syndrome, which may be attributed to Ginseng’s inhibitory effects on oxidative stress (Wang et al., 2020).
For the first time, Tufts University biologists have reported that bioelectrical signals are necessary for normal head and facial formation in an organism and have captured that process in a time-lapse video that reveals never-before-seen patterns of visible bioelectrical signals outlining where eyes, nose, mouth, and other features will appear in an embryonic tadpole.
, before the face of a tadpole develops, bioelectrical signals (ion flux) cause groups of cells to form patterns marked by different membrane voltage and pH levels. When stained with a reporter dye, hyperpolarized (negatively charged) areas shine brightly, while other areas appear darker, creating an "electric face."
Bioelectrical signals control gene expression - proven!
In 1970, Fritz-Albert Popp, a German theoretical
biophysicist, discovered that benzo[a]pyrene, a potent carcinogen, absorbs
ultraviolet light at one wavelength and emits it at another. Yet, benzo[e]pyrene, a
benign compound that is nearly identical to benzo[a]pyrene, absorbs and reemits
the same light at its original wavelength. Popp tested 37 different chemicals. The
carcinogens "scrambled" light with a wavelength of 380 nanometers. The benign
chemicals did not. That finding in itself is fascinating. Using ultraviolet light, the
EPA could target which of the thousands of chemicals used by industry are most
likely to be carcinogenic. However, Popp's work with light and carcinogens led to
momentous findings about cancer and about light's role in biology, as Lynn
McTaggart explains in her book The Field.
During his work with chemicals, Popp learned that 380 nanometers, the
wavelength altered by carcinogens, is also the wavelength that cells prefer to use
to repair themselves. After exposure to intense UV light, cells quickly self-repair
when they are exposed to very weak UV light, particularly that with a wavelength
of 380 nanometers.
https://www.equilibrium-e3.com/images/PDF/Light%20Cancer%20and%20Fritz-Albert%20Popp.pdf
https://www.whatayear.org/06_13.php
voltage gradients across cell membranes are produced by movements of ions in and out of the cell (an ion is a molecule or atom that has lost or gained an extra electron: in either case the ion will have an electrical charge).
How does the bioelectric code contribute to the formation of shapes? Here's an example: if you just look at a frog embryo—a tadpole—before the face of the tadpole actually develops, you won't see very much. The face won't be there. But if you could see the electrical potentials of the cells, you would notice that a pattern for the facial features already exists.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3838801/
Collagenous bands, which can be detected by increasing the echogenicity of an ultrasound, are significantly associated with lower electrical impedance and may explain the reduced impedance that was previously reported at the acupuncture meridians. This finding provides critical insights about acupuncture meridians and the relevance of collagen in bioelectrical measurements. Acupuncture points are likely located on the skin overlying the fascial planes that separate muscles; thus, acupuncture meridians may be located along the fascial planes between muscles or between a muscle and bone or tendon [5, 32]. Magnetic resonance imaging suggests that acupuncture points are located at connective tissue sites and cleavage planes [31].
The hypothesis that meridians are open channels of interstitial fluid seems to be accepted, based on evidence-based research. Some limitations must be considered. In the future, we plan to create methods of observing and measuring the wave movement pattern and direction of induced flow within the meridian channels (Figure 6).
http://superconductingconsciousnesspublic.s3.amazonaws.com/Bender_Superconducting_Consciousness.pdf
Our Superconducting Consciousness
A synthesis of neurophysiology, alchemy, and yoga into a theory of transcendental experience
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