DECENTRALIZED MEDICINE #19: ELECTROMAGNETIC REALITY

Robert O. Becker, MD, found that some part of matter in our nervous system created a DC electric current, and that current drove all healing and regeneration. That current also broke with convention because it could de-differentiate RBCs to primative forms to create stem cells to regenerate our tissues. The current needed was precise. One-thousandth of a million ampere of current was required to do this. Anything less or more than this was a problem. This was the electromagnetic criticality that mammals needed for well-being. When I met Becker in 2007, I told him that POMC was the source of his work. Light was the source of man's regenerative current. This idea was more heterodox than his journey into bone regeneration.

The phenomenon of criticality has been postulated to explain the sudden emergence of new properties in a wide range of complex systems, from avalanches to flocks of birds to stock market crashes. I believe it is behind the modern epidemics of autism and neurodegeneration, too. I think it is exacerbated by things that reduce our redox potential, like vaccines and modern lighting. Neuroscientists are now seeking evidence that criticality is at work in the brain’s networks of neurons.

Criticality is linked to how the OPN5 melanopsin receptor works in the human brain. It is the critical opsin that defines modern chronic diseases.  

I believe self-organizing criticality theory (SOC) needs to critically look at the work of Ilya Prigogine on how dissipative systems operate.  I believe this is why SOC is stuck in the mud with neuroscientists.  To understand this idea you need to understand how the liberation of Vitamin A from our non-visual photoreceptors begins the process of diseases by destroying all of our photoreceptors.  

People often forget that all of the cytochrome proteins in our mitochondria are also heme-based photoreceptors linked to this damage cascade. This is found in every human disease I have studied, from autism and Alzheimer's to zoonosis.

All mitochondria liberate heat. and melatonin and water  Heat is linked to universality and universality is linked to the fractal design found in nature.

Joseph Fourier made an essential contribution to physics in the nineteenth century when he published his mathematical formulation of how heat propagates. Today, Fourier’s law tells us that heat flows from regions of higher temperature to areas of lower: “that heat flux is proportional to the difference in temperature.” This law is a remarkable insight into universality. Here, we have many disparate macroscopic systems, from solids to gasses to liquids, each containing an inordinate sum of molecules and conforming to a heat conductivity law. To the chemist Ilya Prigogine, Fourier’s description was the “birth of the science of complexity.”

Around the same time, another universality, the first law of thermodynamics, was formalizing in science. It tells us that while “energy cannot be created or destroyed, it can be transferred from one form to another. Energy is forever conserved in the universe.

The critical phenomenon of nature is how light energy is transformed.  It can become mechanical, chemical, or vital energy (DC electric current). Light energy undergoes a continual conversion of itself as it interacts with matter.  The atomic organization of matter is the key to energy transformation and criticality.  This energy attraction occurs throughout space and drives the living force in cells. The energy flow is called kinetic energy, which drives heat into one form of energy or another. Thus, order is maintained in the universe—concerning the total energy in the system, nothing is deranged, and nothing is ever lost. Still, the entire machinery in cells, as complicated as it is, works smoothly and harmoniously.

I believe sleep is designed to get brains back to the SUBcritical state, but electromagnetic signaling from circadian biology is what is required to optimize electromagnetic criticality in neurons.  This electromagnetic criticality is linked to the optimized control of ALL charged particles in the entire system.  This creates the quantum coherent state in cells.  Normally, mitochondria set the system close to the subcritical tone of the system, but light sets off the criticality.

Order Comes Out of Chaos

Everything not alive dies in "heat death".  Order always arises out of environmental chaos.  It's a world described as an engine in which heat is converted into motion only at the price of irreversible waste & useless dissipation.

So energy all goes from one conversion to another and tends toward a final state of thermal equilibrium = ‘heat death.'  Life uses cells to slow this "heat death" by slowing the flow of entropy by arranging atoms ideally in cells.  The cell is a dissipative structure that controls the flow of energy so that it can be transformed many more times into useful work.  This is the basis of why critical points are needed in Nature's biological machines inside of cells.

An isolated system is on an inexorable track toward equilibrium, but many interesting things can happen in between. Life at equilibrium is called rigor mortis.  Time spent in a far-from-equilibrium state is called life.  Health is the slowest form of death we can create with our choices around light.

In health, solar energy is pumped into cells and stored, and entropy decreases. This is the blueprint of how all living dissipative structures operate.  The sun is itself a dissipative structure.  So is the Parker spiral.  It is the heliocentric magnetic sheet that engulfs the entire solar system.  This magnetic sheet in the solar wind affects all living things on Earth via their mitochondria.  This is partly how our brains remain subcritical at the proper times.  Sunlight alters our tissues to induce changes in our charge density.  In animals, electrical information generated in mitochondria is more crucial than genes that form tissues, but few people realize this today in centralized science. It turns out that charge density variation by moving electrons around our tissues is the key to understanding what life is up to when it is connected to the decentralized energy systems of Nature.  That is how super-criticality is found during the living state.  

WHAT DOES LIFE LOOK LIKE WHEN IT RESIDES ABOVE OR BELOW THIS CRITICAL POINT?  

Diseases are processes associated with chronic energy loss and entropy gain. The causes can be vast, but the endpoint is always the same.  

When life is lived below the critical point for any reason, heteroplasmy rates expand in those tissues until energy flow ceases, organ failure takes over, and death is invited to your life.  

Earthian life is an open system—doing as much as it can with the solar energy it receives from our aging Sun. The living cell represents an incessant metabolic activity, where thousands of chemical reactions take place simultaneously.

Fasting Factoid:  Is fasting tied to a solar mechanism related to iron hemoglobin?  Before you answer, think about these facts about fasting.  The blood diminishes in volume in proportion to the decrease in the size of the body during a fast so that the relative blood volume remains practically unchanged during a fast. The quality of the blood cells and plasma is not impaired; indeed, an actual rejuvenation of the blood may occur if that blood is allowed to touch the rays of the sun because of how porphyrins work with sunlight.

The old literature on fasting has pointed out that the first effect of a fast is to increase the number of red blood corpuscles.  This increase is an acute phase change only and improves the quantum yield if the blood is allowed to be irradiated by sunlight.  If the fast goes too long, the spleen acts to decrease the RBC's mass.  When this happens, the astute clinician should expect mitochondria in tissues with high heteroplasmy rates to lose more energy and enlarge as things do when they lose energy (think heart failure or a dying star).  The acute increase of erythrocytes during the early part of the fast should be regarded as an improved flow of energy from mitochondria due to autophagy and a cessation of overeating. This red blood cell mass increase has been repeatedly observed in acute anemia cases throughout 20th- 21st century medicine. The decrease in RBC mass is only observed after the starvation period is reached.  What are the implications of this, and how might we mito-hack this with new devices that could take advantage of this unique aspect of RBC mass?

When humans are sleep deprived or suffering a circadian mismatch, their brains become supercritical, although a good night’s sleep can move them back toward the critical point. It thus appears that brains naturally incline themselves to operate near this critical point,  This points out why sunrise every AM is critical to resetting the critical point in the brain every day. POMC activation is the key to regeneration.

The miracle of our brain's physiology isn’t that you can see the world as it is. It’s that you can see the world as it isn’t. My job is to explain what you can't see, but physics has been observed to exist. The absence of evidence in a biology book is not an absence of effect in nature.

The claim that the cortex operates near the critical point is a sweeping one, encompassing optimal information processing, neurological health, and a nearly universal application across species. The need for strong scrutiny is not surprising.

So, why is this view of the critical brain still just a hypothesis? While the evidence in its favor is good, it’s still under discussion.

Early critiques pointed out that proving a network was near the critical point required improved statistical tests. The field responded constructively, and this type of objection is rarely heard these days. More recently, some work has shown that what was previously considered a signature of criticality might also be the result of random processes. Researchers are still investigating that possibility, but many of them have already proposed new criteria for distinguishing between the apparent criticality of random noise and the true criticality of collective interactions among neurons.

Meanwhile, over the past 20 years, research in this area has steadily become more visible. The breadth of methods being used to assess it has also grown. The biggest questions now focus on how operating near the critical point affects cognition and how external inputs can drive a network to move around the critical point. Ideas about criticality have also begun to spread beyond neuroscience.

Citing some of the original papers on criticality in living neural networks, engineers have shown that self-organized networks of atomic switches can be made to operate near the critical point so that they compute many functions optimally. The deep learning community has also begun to study whether operating near the critical point improves artificial neural networks.

SUMMARY

Dreams seem natural when we are in them, but it is when we wake up that they begin to seem strange to us.  Might this be evidence of how a point of criticality operates in the mammalian neural network?  At the critical point of CNS, fluid acts as a single phase of matter. These fluids are both liquid and gas in quality. These fluids are highly compressible at a critical point, and they allow for travel into other dimensions of the mammalian network.  Here are some other significant ideas linked to this story. POMC is required with mtDNA water to create the DC current of Becker. This is the critical point you need to acquire in your journey of wellness.

https://twitter.com/DrJackKruse/status/1680466637827235845

CITES

https://www.jneurosci.org/content/31/1/55.full

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3665287/

https://www.nature.com/articles/nphys1803

https://www.sciencedirect.com/science/article/pii/S0896627319307378

https://www.sciencedirect.com/science/article/pii/S0896627319309596

https://www.sciencedirect.com/science/article/pii/S0753332223000756