Is Human Metabolism Quantum?

How fascia, microtubules, integrins, water and biophotons are changing the way we understand metabolism

Imagine the human body as a vast, interconnected city. Beneath the surface of this bustling metropolis lies an intricate transportation network, seamlessly coordinating movement, communication, and energy flow.

There are highways that span long distances, connecting different neighborhoods. There are city streets that organize local traffic within each neighborhood. And there are bridges and off-ramps that link the highways to the streets, ensuring smooth transitions between the macroscopic and microscopic worlds.

Finally, there is the fuel—the energy source that powers every vehicle on these roads and keeps the system running smoothly.

In this metaphor, the highways are fascia, the city streets are microtubules, the bridges and off-ramps are integrins, and the fuel is biological water. Together, these components form a "quantum highway system" that allows the body to communicate across vast distances while maintaining harmony at every level—from whole-body movements to cellular processes.

But what if this system didn’t just operate on mechanical and biochemical principles? What if it also worked on a quantum level, using light—specifically biophotons—to transmit information? Recent research suggests this might be true.

Let’s take a journey through this fascinating network to understand how fascia, microtubules, integrins, and water work together to create a seamless communication system.

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Fascia: The Highways of the Body

Fascia is like the interstate highway system of your body. It’s a continuous network of connective tissue that wraps around muscles, bones, organs, nerves, and blood vessels, linking everything together from head to toe. Just as highways connect distant cities and towns, fascia connects tissues and organs across vast distances.

This connective tissue is made up of collagen fibers (the steel beams of this highway), elastin fibers (which provide flexibility), and a gel-like ground substance (the asphalt that fills in gaps). Fascia doesn’t just hold things in place—it’s dynamic.

When you move or stretch, fascia transmits mechanical forces across your body. For example, when you take a step, the force generated in your foot travels up through your leg via fascia, influencing muscles and joints far away.

But fascia isn’t just a mechanical structure—it has electrical properties too. Collagen fibers in fascia generate tiny electrical signals when stretched or compressed (a phenomenon called piezoelectricity). These signals may act like traffic lights or road signs on this highway system, guiding communication between different parts of the body.

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Integrins: The Bridges and Off-Ramps

Now imagine you’re driving on one of these highways and need to get into a city. You’d use an off-ramp or bridge to transition from the highway to local streets. In your body, integrins serve this role.Integrins are proteins embedded in cell membranes that connect fascia (the highway) to structures inside cells (the city streets).

They’re like bridges that link two worlds—the extracellular matrix (fascia) outside the cell and the cytoskeleton inside it. When mechanical forces travel along fascia, integrins pick up these signals and transmit them into cells.

But integrins do more than just pass along mechanical forces—they translate them into biochemical signals that cells can understand. This process is called mechanotransduction, and it’s how cells sense their environment and respond to changes. For example:

• If you stretch a muscle during yoga, integrins detect this force and send signals into muscle cells.

• These signals might trigger changes in gene expression or protein production to help the muscle adapt.

In this way, integrins act as vital connectors between the macro world of fascia and the micro world inside cells.

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Microtubules: The City Streets

Once you’ve exited the highway via an off-ramp (integrin), you find yourself on city streets—smaller roads that organize local traffic within neighborhoods. Inside your cells, these streets are called microtubules.

Microtubules are part of the cytoskeleton—the internal scaffolding that gives cells their shape and structure. They’re made of tubulin proteins arranged into hollow tubes that crisscross through the cell like an intricate road map. Just as city streets guide cars to their destinations, microtubules guide molecular "traffic" within cells:

• Motor proteins like kinesin and dynein act as delivery trucks, carrying cargo such as organelles or vesicles along microtubule tracks.

• Microtubules also play a role in cell division by organizing chromosomes during mitosis.

But here’s where things get even more fascinating: microtubules may also act as optical waveguides, conducting tiny particles of light called biophotons. This suggests they aren’t just physical roads—they might also be "fiber-optic cables" for transmitting electromagnetic signals within cells.

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Biological Water: The Propagating Force

No transportation system can function without fuel—and in this quantum highway system, that fuel is biological water. But water does far more than hydrate your tissues—it actively participates in communication processes at every level.

Around hydrophilic surfaces like collagen fibers in fascia or tubulin proteins in microtubules, water molecules organize into structured layers called exclusion zone (EZ) water. This structured water has unique properties:

• It’s negatively charged and can store energy.

• It amplifies signals by enhancing charge separation.

• It supports coherent energy transfer over long distances.

In fascia, structured water aligns with collagen fibers to create a liquid-crystalline matrix capable of conducting electrical signals or even biophotons. Around microtubules, it stabilizes their structure and enhances their ability to guide light-based signals.

Think of biological water as both fuel for vehicles on these roads and an amplifier for any signals traveling through them.

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Biophotons: The Light Traveling on These Highways

Now let’s add another layer to this analogy: imagine some vehicles on these roads aren’t cars or trucks—they’re beams of light traveling at incredible speeds. In your body, these beams of light are called biophotons—ultraweak photons emitted by living cells.

Biophotons are generated by mitochondria during energy production or by DNA during electromagnetic interactions. They exhibit quantum properties like coherence (similar to laser light), allowing them to transmit information efficiently without losing energy.

Here’s how biophotons might travel through this quantum highway system:

1. Inside cells: Microtubules act as optical waveguides for biophotons.

2. Between cells: Fascia’s collagen fibers conduct biophotons over long distances.

3. At junctions: Integrins serve as conduits for biophoton signals moving between extracellular (fascia) and intracellular (microtubule) environments.

This suggests that biophotons could be a form of "light-based traffic," carrying information across tissues faster than traditional chemical signaling pathways.

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A Unified System for Body-Wide Communication

When we put all these pieces together—fascia as highways, integrins as bridges/off-ramps, microtubules as city streets, biological water as fuel/amplifiers, and biophotons as light-based vehicles—we see an extraordinary communication network that operates across scales:

• At the macroscopic level: Fascia transmits mechanical forces across tissues.

• At the microscopic level: Microtubules organize intracellular processes.

• At both levels: Integrins link these systems together while biological water amplifies their interactions.

• At a quantum level: Biophotons add an electromagnetic dimension to this network.

This "quantum highway" system ensures that information flows seamlessly throughout your body—whether it’s coordinating movement during exercise or regulating cellular responses to stress.

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Conclusion

The human body isn’t just a collection of isolated parts—it’s an interconnected whole where fascia forms highways for macroscopic connectivity; integrins act as bridges linking extracellular and intracellular worlds; microtubules organize cellular functions like city streets; and biological water fuels signal propagation while amplifying its effects.

Biophotons traveling along this network add an entirely new dimension to how we understand communication within living systems—one that may even operate at quantum scales.

This integrated model offers profound implications—not only for understanding health but also for exploring phenomena like consciousness or systemic coherence in ways we’re only beginning to grasp.

As science continues unraveling these mysteries, one thing becomes clear: our bodies are far more interconnected—and extraordinary—than we ever imagined.

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References

1. The Fourth Phase of Water: Beyond Solid, Liquid, and Vapor
   Gerald H. Pollack introduces the concept of "exclusion zone (EZ) water" and its role in biological systems.
   Read the article here

2. Quantum Theory of Consciousness and Orch OR
   Overview of Penrose and Hameroff's theory linking quantum mechanics in microtubules to consciousness.
   Read the article here

3. Cracking the Bioelectric Code
   A detailed exploration of bioelectricity's role in cellular communication and developmental biology.
   Read the article here

4. Quantum Brain Dynamics and Consciousness
   Jibu and Yasue's framework for understanding consciousness through quantum field theory.
   Read about it here

5. Biophotons: Humans as Beings of Light
   Fritz-Albert Popp's groundbreaking research on biophotons as a system of cellular communication.
   Read the article here

6. Piezoelectricity in Fascia
   An exploration of how fascia generates electrical signals in response to mechanical stress.
   Read the article here

7. Generation of Electromagnetic Fields by Microtubules
   Research on how microtubules generate electromagnetic fields and their role in cellular processes.
   Read the article here

8. Evidence for Water Structuring Forces Between Surfaces
   Insights into how structured water interacts with biological surfaces and its implications for hydration forces.
   Read the article here

9. Consciousness in the Universe: An Updated Review of Orch OR Theory
   Penrose and Hameroff's updated review on orchestrated objective reduction (Orch OR) theory.
   Read the PDF here

10. The Bioelectric Code: Reprogramming Cancer and Aging
    A discussion on how bioelectric signals influence regeneration, cancer, and aging at cellular and tissue levels.
    Read the PDF here