Your Body is Amazing Part 7: Quantum Biology and How Cells Really Communicate

I wrestled with putting this part first in the series, but I think slowly zooming out has (hopefully) given you a deeper understanding as to how the body really operates.

Today, though, we will break barriers we all learned in middle school.  Some of them were included in my own training in chiropractic school, and I know this same logic applies to western medical schools, nursing schools, dental schools, and all the way down the line.

So fair warning: My goal is to understand how the body truly works from a variety of lenses.  What I tried to make clear in Part 6 is that the “traditional” biochemistry model assumes that biochemistry happens with molecules randomly floating in a solution, and only happens on an ordered, step-by-step basis, and that it is random.  

What conventional biochemistry has no answer for is the speed said reactions take place if everything is just, well, random.  So today, I’m going to show you that it is not random, and give some historical insight to try and find out why some scientists have been silenced or not taken seriously, save for a few curious souls. 

I strongly recommend reading Part 6 as a preamble to this.

Here we go.

Zooming In

Since the dawn of recorded history, health practitioners, pathologists, and other intellectuals have only been to rely on gross observations of their patients and the environment.  Given the explosion in technology, scientists have been able to look deeper and deeper into smaller and smaller objects, for better AND for worse.

For one, this has led to the ever-popular germ-theory of which most conventional medicine (and people in general) abide by- despite having many flaws and Louis Pasteur himself admitting that he was wrong on his deathbed.  But we’re not talking about that today.  What is important, though, is to understand this concept of looking for “smaller causes of disease” has led to the modern conventional views on cellular and molecular biology.  This “cause-and-effect” model does not work in a quantum world.

And while cellular and molecular biologists have been looking at the granular scale to uncover the mysteries of biochemistry, physicists are working on even smaller scales to understand the elementary particles (waves) of life and electromagnetism to get an idea of how animated life actually works.

The clash here is this: what physicists have discovered trumps what modern-day molecular and cellular biology have found, and almost no one in the healthcare field knows about it.

Why?  No one in healthcare (myself included) learns physics.  It is all biology and chemistry.

How Did We Get Here?

For centuries, many scientific philosophers felt that the animated world was governed by four major substances: light, electricity, magnetism, and heat.  Of these four, electricity was the one mostly associated with animating life.  

This thinking began to change in the late 1700s, when two scientists you may know by name, butted heads.  They were fellow countrymen Luigi Galvani and Alessandro Volta.  Galvani, a vitalist, thought that the function of the nerves was to discharge “stored electricity” and the dissimilar metals in direct contact with the muscle seemingly replicating the natural function of an animal’s own nerves.

Volta held a contrasting view.  He claimed that the electric current did not originate from the animal but rather from the dissimilar metals themselves. According to Volta, convulsions (or muscle contractions, which is what the two men observed) were solely due to external stimuli.  He denied the existence of “animal electricity.”  In a pivotal demonstration, Volta showed that an electric current could be generated by the contact of different metals alone, without the involvement of an animal.

This disagreement represented two distinct worldviews.  At the time, this was a major clash between the mechanists (Volta) and the vitalists (Galvani).  In the western world during the late-eighteenth century, these viewpoints were symbolic of the existential struggle of many scientists of the day.

Galvani, a physician at the time, sought explanations in biology, considering metals as an adjunct to living organisms.  Volta, a self-taught physicist, felt electricity was a completely separate entity from life.  Volta felt that the contact between conductors was sufficient, even for the electricity within the animal; muscles and nerves were perceived as moist conductors, akin to an electric battery.  

Even though later researchers like Leopoldo Nobili, Carlo Matteucci, and Emil du Bois-Reymond demonstrated the connection between electricity and life, vitalism was reduced to a dogmatic religion.

Ultimately, Volta and the mechanists prevailed.  He went on to create the electric battery, which then fueled the industrial revolution.  Electricity played no role in animating life.  Because of this separation, society eventually went on to harness electricity at the industrial scale, never once considering that it may play a role in human health.

While electricity was discovered in nerves and muscles, its action was deemed a by-product of ions crossing membranes and neurotransmitters crossing synapses.  Chemistry ultimately became the primary scientific soil nurturing biology and physiology.

Turning the Tides

Fast-forward to today we seem to be headed towards a similar clash once again in the Western world, and not many are ready for it.  Two contrasting perspectives have again emerged regarding the essence of what animates life.  The prevailing side today is the “mechanistic” side.  They see the body as a series of molecular systems, like cogs, gears, belts, pulleys, etc.  Life is a purely mechanical phenomenon, and there is little-to-no input from “energy.”  This fundamental philosophy asserts that humans are non-electrical beings.

The other does take the “energetic” side of things seriously, and you can easily trace this back to many of the ancient teachings in Traditional Chinese and Ayurvedic Medicine.  Despite now having evidence that acupuncture channels do exist in living organisms, most “energy medicine,” at least in Western medical circles,  gets tossed to the side as witchcraft and voodoo.  You can read up on some of the earlier science in Dr. Robert Becker’s The Body Electric.

The conventional model of today basically falls under this logic:

• Elements come together to form molecules
• Molecules come together to form larger structures (simple carbohydrates, amino acids, fatty acids)
• These larger structures ultimately become the things that constitute life (sugars, proteins, fats, nucleic acids)

In this model, little thought is given to the quantum or energetic interactions among these constructs.  The reason for that is because it would disrupt the dogma of incremental “evidence-based” science.

Few have argued this model fervently.  But one did in the 1960s. 

He went by the name of Gilbert Ling, PhD.  Ling challenged one of the foundational premises of conventional medicine and biology that still exists today: that ATP serves as the primary energy source for the cell’s ion pumps, most notably including the crucial sodium-potassium ATPase maintaining the cell membrane gradient.  He found that this theory could simply not make sense as constructed.  

He calculated that energy released from food combustion and stored in ATP could only cover around 20% of the energy needed for these pumps to work.  It’s worth noting that in his calculations, he looked only at the sodium-potassium pumps.  He didn’t incorporate ANY OTHER CELLULAR WORK into his calculations, and still came up with only 20%.

That alone should be enough to question most of the conventional thinking in biochemistry.  As you might imagine, Gilbert Ling did not subscribe to the dogma of the time and ended up ticking off quite a few people.  In fact, he managed to upset so many people that those who maintained the status quo ensured he would not get the funding he needed to proceed, and eventually permitted someone else to appropriate his work, awarding that individual the Nobel Prize.

This also led to another question: where did the other 80% of the required energy come from?   To find out, he developed the “Association-Induction Hypothesis” over his career.  According to his hypothesis, he felt that water structured by light provided the essential energy for the cell’s vital functions.

Unfortunately, Ling’s ideas were not taken seriously by mainstream science, save for a few curious researchers, like Gerald Pollack, who are sort of spiritual successors, and actually confirmed that his suspicions were correct.  Gilbert Ling passed away in 2019, a month before turning 100 years old.  Until the end, he stood by his hypothesis.  You can even read some of his papers on his legacy website here.

Shaking The Waters

Einstein won a Nobel Prize for discovering the photoelectric effect.  The photoelectric effect occurs when a photon strikes the surface of a material, it emits electrons.  Today, it is widely acknowledged and accepted that the primary origin of our energy and negative entropy is solar electromagnetic radiation.

But first, what is negative entropy?  In thermodynamics, entropy is defined as the thermodynamic quantity that represents the measure of disorder or randomness in a system.  The second law of thermodynamics states that the entropy of an isolated system, or disorder, tends to increase over time.  In other words, when entropy increases, things fall apart.

Negative entropy describes movement of a system in the opposite direction.  Instead of trending towards chaos and disorder, negative entropy trends toward structure and organization.  It is this negative entropy that sustains life on this planet.

When a photon engages with a material particle on Earth, it elevates one electron from an electron pair to a higher energy level.  While biology acknowledges that this occurs in chloroplasts during photosynthesis, we are in the infant stages of understanding this in animals and mitochondria.

What Did Ling Find?  And Its Implications

What Ling and his spiritual successors ultimately found is that the Earth’s magnetic field and sunlight come together to polarize water around proteins, simultaneously excluding solutes and providing the energy needed for the negative entropy crucial for life.  This is done primarily by utilizing the photoelectric effect.  

In a simplified explanation, the electrical polarization of a water molecule involves a four-step process.

1. Oppositely-charged electrical voltage zones are introduced to either side of the water molecule.  This is done when water interfaces with a hydrophilic surface (proteins, cell membranes, etc.)
2. The water molecule becomes electrically polarized, or charged.
3. This electrical polarization weakens the stability of that water molecule.
4. The water molecule is split into its component parts, with hydrogen attracted to the negative voltage zone and oxygen to the positive voltage zone, all occurring simultaneously.

Water polarization in confined spaces allows for the initiation of proton electricity, termed “protonicity.”  This proton conduction is thought to be the reason the acupuncture system works.  

It is universally accepted that ATP provides the energy of activation for biochemical reactions.  While popular, this theory is likely incorrect based on Ling’s (and others’) findings.  

***There’s a reason you never heard of Ling until now.  The implications of his findings would have major implications and could lay the groundwork for quantum biology research.  Between Ling and his successors, here are just a few foundational pieces of information that are beginning to come to light.   

Pollack actually took Ling’s work a bit further and developed the concept of exclusion zones creating hexagonal ring-like structures of water in the form of a liquid crystal.

The True Role of ATP

So if ATP isn’t used for energy, like we are all taught, then what is it doing?

ATP is designed to unfold proteins encoded by DNA, exposing water bonding sites on amino acid side chains.  When you expose peptide bonds (-COONH-) to water, the bonds can be polarized.  This forms an alternating chain of -COO and NH+ charges that can attract water.  

A layer of water then created an exclusion zone and thus a polarized liquid crystal, functioning as an intracellular semiconductor.  The addition of photons or electrons to this water structure leads to the development of more electricity or protonicity.

Sunlight as an Energy Source

Sunlight is all you need to charge-separate water.   It can generate negative and positive charges that align with Earth’s magnetic field, which are controlled by the electromagnetic force.

Structured Water

What Gerald Pollack found is that water structured in massive exclusion zones on hydrophilic surfaces exhibits liquid crystalline order and a significant negative electric potential, resulting from macroscopic charge separation where excess protons accumulate outside the exclusion zone. 

Remember, this can happen on any hydrophilic surface in the body, including most proteins, fascia, and cell membranes.  The photoelectric effect induced by sunlight initiates this charge separation, essentially creating a “water battery” for life’s energy needs.

The same year Pollack book, The Fourth Phase of Water, was released, the semiconductor industry discovered that utilizing light alone can boost electric current induction by 400%, enhancing energy efficiency.

Coherent Water

Using light, water can also become coherent, enabling it to transfer the energy needed to create and sustain life.

To grasp the concept of coherence, consider light from a lamp bulb versus a laser.  A lamp bulb provides general illumination, while a laser beam, composed of focused photons, possesses the ability to cut through diamonds.

Fundamentally they are the same, but their structure changes their properties.  Water, collagen, and proteins within quantum cells undergo structural changes that influence their physical capabilities.  In cells, water shares similar properties to that of a laser.  

Protons in water and proteins contribute energy to this water semiconductor, enabling ATP to electronically induce water polarization and animate life. This understanding aligns with Gilbert Ling’s assertion in 1952, which, unfortunately, went unheard.

What is wild is that his electronic induction theory aligns seamlessly with our observational understanding of life. Both MRI and PET scanners were developed based on Gilbert Ling’s hypothesis.  However, you won’t see him mentioned at all.

A Quantum Perspective

Quantum Electrodynamics

And this is where the quantum field theory of Quantum Electrodynamics (QED) comes into the fold.  Quantum Electrodynamics (QED) is a mathematical framework that encompasses the interactions between light and matter, as well as the interactions among charged particles like electrons and positrons.  It blends quantum mechanics with special relativity (Einstein’s famous formula, E=mc²).  

Because the behavior of atoms and molecules is primarily electromagnetic in Nature, all of atomic physics is sort of a “testing ground” for the theory.

QED primarily focuses on electromagnetic fields and how charges interact with them.  It incorporates the wave-particle duality of particles.  It is based on the idea that charged particles (electrons and positrons) interact by emitting and absorbing photons.  

Because photons can’t really be seen and do not have mass, their existence violates the conservation of energy and momentum, they are considered “virtual.”  The photon exchange is merely the “force” of the interaction because interacting particles change their speed and direction of travel as they release or absorb the energy of a photon.

QED Meets Biology

As I mentioned before, doctors of all kinds have no training in physics, and many biologists and chemists do not appreciate the quantum world the way they probably should.  The time for a mindset shift is now.

Life revolves around capturing and using excited electrons, photons, and protons, and using specific proteins surrounded by liquid crystal water layers.

The captured photons and electrons, surrounded by water in liquid crystals enveloping proteins, are then harnessed for their energy.  In other words, photons and electrons can be stored in structured water for later use, without overheating the system (body).  Electrons can be stored in the capacitor of the cell- the cell membrane.

The cell membrane itself has a variety of functions.  

1. The cell membrane is the brain of the cell.
2.  It is a capacitor that stores voltage for energy. 
3. It functions as a microprocessor.  The cell membrane controls the functions of the cell by interacting with its surrounding environment. 
4. The cell membrane is a liquid crystal that can open and close to allow things to enter the cell or keep them out and also allow things to exit the cell or keep them in.

Dr. Jack Kruse describes this process to a college student tapping a keg of beer.  Once we tap into this source (photons and electrons), the semiconductors inside of us organize the collected energy while allowing electrons and photons to return to their ground state. 

During this process, proteins can capture water using the energy given off along the way.  Eectrons, photons, and atoms all play a role in the liquid crystal water that allows for the propagation of electrical charges.  

Furthermore, the information given to this liquid crystal array is “tunable” like your radio.  It functions like a series-tuned circuit.  It can electrically “stretch” or “shorten” an antenna or waveguide transmission line so that the length of the antenna or waveguide will match the length of the incoming wave.

In other words, depending on the electron and photon energy inputs, the “channel” you pick up can change.  This partially explains why artificial light at night and nnEMFs can be so detrimental to health.

The DNA Problem

Most still believe the myth that most dis-ease is genetic and that we will only find “cures” by studying genes.

DNA encodes for proteins.  In simplest terms, DNA contains the genetic blueprints to make said proteins.  We now know that we only have around 20,000ish genes that encode for over 120,000 unique proteins.  Yet most people are still taught that a specific gene encodes for a specific protein.  I guess someone failed their math class. 

When a cell needs to create new proteins, it needs to read the gene’s information on how to make the protein using the DNA blueprint.  It’s important to note that genes themselves don’t do anything.  They are simply blueprints tucked away in a cell’s nucleus.  Genes are covered in a protein sleeve, storing them safely until an electronic signal prompts the movement or opening of the protein “drawer” (made of regulatory proteins that act as the sleeve covering DNA), revealing the requisite genes. 

Once the “drawer” is open, the gene can be accessed.  The genetic information is transcribed onto a protein molecule known as “messenger RNA,” which makes a sort of photocopy of the information.  The messenger RNA then goes to a processing unit called a ribosome, which is the “factory” that actually produces the protein.  

So what does this all mean?  DNA is influenced by the “tuning” electromagnetic forces, which opens certain drawers for protein production.  The stimulus for this is the environment, which is always changing.

The entire Earth’s surface is a storage facility for electrons.  We have spent so much time focusing on calories (the heat side of energy), that we forget the most omnipresent forces are electromagnetic.  

This is why food energetics matter.  Basing your energy requirement on calories alone does not allow you to see the full picture, and in my opinion it is why so many people have consistently failed trying to lose weight.  They are ignoring the movement of electrons and photons in our environment, in the gut, and in our food, all of which are better determinants of how we utilize energy.

Water is Structured by Light

There’s an entire blog I already did on this here.  When water is structured by light inside a cell, it forms a battery that the cell can use to do work.  On the other hand, certain light wavelengths can also disrupt water, creating disorganization, and inhibiting its ability to make energy.

We also know that exclusion zones can form when water interfaces with hydrophilic surfaces.  When water interacts with collagen energized by sunlight photons, the water right next to collagen forms an empty space called the exclusion zone.  

Next to the exclusion zone, electrons are separated from water molecules.  Next to this layer is a concentrated layer of protons originating from the hydrogen in water. It seems that collagen (or other hydrophilic surfaces) facilitates the separation of water into its elemental components, forming clusters of charged particles.

This creates the fourth, liquid crystalline phase of water.  While this might not seem like a big deal, consider that Washington State researchers found that exposing a crystal to light increased the conductivity of said crystal by 400x.

According to Gilbert Ling, he felt that light is used to control electrons to do the things we expect in biochemical reactions.  

Sunlight alone is sufficient to change rotational, vibrational, and electronic states of electrons and store this energy for later use.  The stored energy then can be used to power the biochemical reactions within us.  The internal liquid crystal semiconductor network can store this energy without heating up the body excessively, too.

Physics and Biology Butt Heads

Physicists now know that quantum mechanics are fundamentally a part of life, whereas biology just simply has not accepted this.  In my opinion, this is why we have made such little progress in health and medicine (at least in the West) since the discovery of DNA.  They have bet on the wrong horse.  They think DNA mutations are the major cause of dis-ease, where it clearly makes no sense.  Modern-day health outcomes clearly back that up.

One concept of quantum mechanics that is tough for Modern Biology to grapple with is that it inherently is probabilistic.  Even Heisenberg’s Uncertainty Principle claims that an electron cannot be pinned down to know its correct place and momentum.  This is an abstract concept that doesn’t align with conventional thinking, yet it seems to underpin the elementary workings of the world.  

Furthermore, the fundamentals of quantum mechanics have better experimental data than any other branch of science.  Quantum mechanics, specifically in the framework of quantum electrodynamics, cna correctly predict the magnetic moment of an electron with a precision of approximately one part in a trillion (that’s 1×10^-12 or 0.000000000001% chance of error).  QED has been shown to be the most accurate theory in the history of science to date.

Even though we don’t understand all the ins and outs of quantum mechanics, we can still use it to benefit the progression of science.  This is like how an English-speaking person can go on a trip to Italy knowing only 5-10 key words or phrases and get by.  In physics, if experimental data contradicts theory, the theory is deemed incorrect.

Calories In – Calories Out

One of Ling’s major bones to pick was prevailing beliefs about sodium-potassium pumps, energy production, and the Second Law of Thermodynamics.  Ling found that the conventional theory of how sodium-potassium pumps would break the Second Law of Thermodynamics by a massive amount.  

Second law of thermodynamics describes the amount of useful work that can be done from a process that exchanges or transfers heat.  What’s important to realize is that thermodynamics deals only with the large-scale response of a system which we can observe and measure in experiments.  In other words, the quantum world does not obey the laws of thermodynamics.  

Unfortunately, influential beliefs in biology have permeated medicine for decades, promoting the notion of life existing in a constant equilibrium state- which it doesn’t because there is ALWAYS flow so long as there is life.  Biologists and biochemists often ignore or sidestep discussions on thermodynamics, choosing the concept of calories because it can be rationalized, albeit erroneously.

For the calorie model to work, it assumes that the body is in a state of equilibrium.  Energy flows within a living system, it circulates, builds structures for energy storage, performs work, and dissipates before equilibrium is reached.  True equilibrium only occurs at death.  This is why using calories as a model is at best a rough measurement.

Putting the Work Together

People like Robert Becker, Albert Szent-Györgi, and Gilbert Ling all recognized the connection between energy and organization in biological systems- like human beings!  They seem to be correct in that biological systems are an organized system of excitable channels using semiconductors.  Mainstream science should have been tipped off when Becker found the bone properties of semiconductors.  Since then, some brave scientists have found that pretty much any hydrophilic surface that comes in contact with water creates a similar environment. 

These tissues can take weak electromagnetic signals and amplify them.  This is a concept of non-linear optics.  

Modern biology mainly focuses on information coded at the gene level.   They overlook many aspects of the non-coding DNA/RNA, even though that makes up the majority.  In fact, many go as far to call it “junk DNA.”  I ask you: does Nature make mistakes?

When we take in information from our environment, the brain interprets that signal, which tells cells what to do.  This information isn’t confined to the brain but resides in every cell.  The brain serves as a librarian retrieving data when needed.

It also implies that energy isn’t associated with just molecules or particles- but all of Nature.  Remember, our world is fractal, or similar, in this way.  Like the hologram model, every part of us carries information about the whole.  The fractal (a smaller duplicate of a larger whole) organization of Nature is so simple, yet so profound.

The problem with modern scientific literature is that it is based on flawed assumptions about cellular biology.  If you build a shaky foundation, everything on top becomes even more unstable.  

Gilbert Ling’s experimental proof challenging these assumptions marked the day of embracing our species as quantum beings.

What Biology Needs to Consider

1. How Enzymes Work

Enzymes are biological molecules that act as catalysts in living organisms.  This is how modern biochemistry explains the speeding up of certain chemical reactions by lowering the activation energy required for the reaction to occur. They do so by providing an alternative reaction pathway that requires less energy. 

Enzymes are able to do what they do because of their shape and the prevalence of the “lock-and-key” theory that dominates conventional biochemistry.  

If light structures water, how does light alter the structure and function of proteins, particularly enzymes?

Do enzyme kinetics rely not only on variables such as pH, salinity, heat, and the availability of substrates or catalysts but also on energies like sound, light, or electromagnetic fields?  We already discussed Ling’s theories on ATP unfolding proteins to allow for electron flow.

2. Nature is Known to Adapt to Its Environment

As we have learned throughout this series, we are ultimately the product of our environment, in more ways than one.  More specifically, that also means that we must use what’s available in our environment to power the processes that make Humans…Human.  But this extends to every species that is alive, so the implications of this are very widespread.

Put another way, life is able to use all materials available to it in order to excel in its environment.  To do this, we must be able to use all forms of energy in some way, and this includes all spectrums of light available to us, including radio waves and microwaves all the way to the visible and ultraviolet portions.

3. The Electronic Nature of Life

Like we touched on in Part 6, traditional biochemistry tells us that a cell is a bag of molecules dissolved in water, where chance encounters and random collisions lead complementary-shaped molecules to lock onto each other, facilitating biochemical reactions.  

This is the “billiard ball” or “lock-and-key” model we all learn in biochemistry today.  Molecules are just floating around randomly, hoping to bump into the right partner for a reaction to occur.  Considering that there are 100,000 reactions happening per second in a cell, this model seems like a bit of a stretch.

This has been modernized to include the ‘’induced fit’ hypothesis, allowing molecules to adjust shapes slightly upon contact- to try and make sense of this.  But it still falls short.

This model is supposed to explain how enzymes can recognize their substrates, how antibodies disarm specific invaders in the immune system, and proteins engaging with partner molecules.

There is simply no way this model can account for 100,000 reactions happening in every cell per second. 

Shifting Gears

Based on these three examples alone, this is more than enough to shake the foundation of modern biology and start to introduce the idea of quantum mechanics playing a more prominent role.

For one, we need to come to the agreement that matter and energy do interact- and Einstein’s photoelectric effect is the backbone of this premise.  Furthermore, the whole of these interactions depends on the whole of the inputs, not just the material, mechanical, parts.  Put another way, energy is as much a part of medicine as matter, if not more.  

This also means that there is no universally “safe” or “effective” dosage or exposure for anything, be it light, food, or medication.  Everything must be treated as n=1, and this clashes with modern $cience’s obsession with Random Clinical Trials (discussed how this came to be here).  

Furthermore, since we are using quantum principles, we need to come to grips with the fact that we are basing things on probabilities and NOT cause and effect, since that does not apply to quantum mechanics.  This is the hardest pill for Modern Conventional Medicine to swallow.

For each person there is a range of therapies that can help, and those that can harm.  Smart clinicians are aware of this and will enter a partnership with their patients to not only understand this, but educate them to embody what true informed consent actually is.

We also must use better metrics to determine health.  For me, the cell’s ability to produce energy is a true measure of health.  We know that producing energy in cells relies on quantum interactions.  Therefore, whatever impairs these interactions can impact cellular health.  This is why one of the biggest lies in healthcare is equating a lack of symptoms with “being healthy” or using morbidity and mortality data to determine health.  

We should be more focused on understanding what environmental conditions are going to support and optimize cellular bioenergetics.  This is because life inevitably prioritizes energy production, because without it, we’re dead.  Cells will use whatever materials available to it to try and sustain life and reverse entropy as much as possible.  The body is not “broken” or “attacking itself,” ever.  Dis-ease only occurs when cellular bioenergetics becomes so impaired that it can no longer maintain normal structure and function.  It is the clinician’s (and individual’s) duty to figure out why.

Also, the quantum state of matter… matters.  Even conventional biology acknowledges this, so it’s not a major stretch.  For example, radioactive iodine isn’t the same as more stable isotopes of iodine.  It is simply a change in the mass of an atom, a difference in the number of protons and/or neutrons, that affect how said atoms interact with their environment.  A more clinical example of this would be hexavalent chromium is highly toxic, while trivalent chromium is an essential mineral, and yet most clinicians don’t consider this.

Another important point: absence of evidence is not the same as evidence of absence.  While science has come a long way, we must be humble enough to admit that we don’t know everything and probably never will.  With that in mind, we must also be willing to acknowledge that energy impacts life in subtle (and not-so-subtle) ways, even if we don’t have the tools to measure this yet.  The identification of acupuncture meridians mentioned above is a fantastic example of this.  It also means that adhering to the precautionary principle for claims like “microwave radiation is safe,” is probably a good idea.

So How Does This Change Modern Healthcare?

To keep it simple there are some foundational principles that support the integration of quantum biology into the future of the healing arts.

Various factors can influence this quantum process, and in today’s modern environment, non-native electromagnetic fields (EMF) impact this step in two ways. 

Firstly, they cause dehydration through direct EMF effects.  Secondly, they disrupt the hydrogen bonding arrangement, which is crucial as water acts as a small magnetic dipole.  Without water, the energy necessary for life to come alive is absent.

With this in mind, here are some key quantum concepts that modern healers must consider.

1. The body is primarily controlled by electronics via physics, and not biochemistry.   
2. If matter can function as medicine, then so can energy.  Einstein solidified that with E=mc².
3. Our health is significantly influenced by the potent effects of the Earth’s electromagnetic field.
4. Electromagnetic pollution can and does impact health.
5. It is impossible to achieve or maintain optimal health in the presence of artificial lighting.
6. Food is not just “fuel for the body.”  It must possess appropriate quantum properties (like electron configuration and atomic structure).  
7. How food is utilized in the body is largely dependent on the surrounding energetic environment.
8. Various forms of energy, such as vibration or sound waves, impact health in ways that we are only beginning to uncover and comprehend.
9. Metabolism is a property of biological systems, and the accuracy of statements about matter (foods, drugs, supplements, etc.) depends on the energetic domains or principles encompassing that matter.
10. The placebo and nocebo effects are likely driven by energetic mechanisms grounded in quantum principles, illustrating that our thoughts have the power to shape health and disease through energies.
11. We are all quantum entangled in this world together at this time.  That means we’re all connected.

Most modern physicians still operate by seeing the body as a clock.  If a clock stops working, you can take it apart, find the broken gear, and then put it back together and it starts working again.  This is a reductionist concept that, while based in Newtonian (classical) physics, does not explain the inner workings of the body adequately.  Newtonian physics might be best explained by the physics of the “big” observable world, while quantum mechanics dives into the “small” invisible reality that our world is governed by.  

Modern medicine is still stuck in this rat race looking for the tiniest particle to “cause disease,” now with billions being put into genetic research.  Problem is, at the atomic level, Newtonian physics doesn’t work.  This is the mistake modern medicine has still not fixed.

Newton’s laws work for large objects but don’t work for atoms or the living human being.

Gilbert Ling was one of those people who saw this, and began to realize it.  I’d encourage you to look into his work on his website, get started with Robert Becker’s The Body Electric, or even Dr. Jerry Tennant’s Healing is Voltage for more info.  We’ll be diving into more concepts like this next year!

Until then!

Have a great holiday season!  

Dr. Vincent Esposito 

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