Scientific Breakthroughs

A New BiomeTech Breakthrough!

The Missing Link:

Mitochondria, the Microbiome, and True Recovery

When we talk about healing, immunity, and long-term vitality, everything eventually comes back to one central question:


Do our cells have enough energy to function, repair, and recover?

What we are finally beginning to understand is that energy is not a side effect of health — it is its foundation. And at the very center of this equation are the mitochondria. A single human cell can contain hundreds to thousands of mitochondria, depending on its energy demands.

Mitochondria: The Battery of Every Cell

Mitochondria are the cell's "powerhouses," generating the vast majority of its energy currency, Adenosine Triphosphate (ATP). Mitochondria are the batteries that run every single cell in the body. ATP cannot be stored in meaningful amounts. This means mitochondria must produce ATP continuously, every second of every day, to keep cells alive and functional. They power not only muscles and organs, but also the immune system and the brain. Mitochondrial performance on a daily basis directly determines cellular health, resilience, and survival. When mitochondrial function declines, the consequences are felt everywhere.

If someone feels exhausted despite getting enough sleep, experiences chronic fatigue, brain fog, or muscle weakness, it is often a sign that mitochondria are not functioning optimally. In many cases, the issue is not motivation or rest, but an insufficient cellular energy supply, especially in muscles and in the communication between the brain and the body.

This pattern is clearly visible in conditions such as long Covid, Lyme disease, chronic viral or parasitic infections, and other illnesses that linger long after the initial trigger is gone.


What Happens During Infections

Over time, mitochondria do not remain static.

Their number and activity can shrink, especially under pressure from:

  • viruses,
  • bacterial infections,
  • parasites,
  • and other chronic biological stressors.

This reduction happens gradually, depending on the type, duration, and intensity of infections. Viruses, infections, parasites, and protozoa do more than just “invade” the body, they actively reduce mitochondrial number and activity.

One of the most important insights behind BiomeTech's breakthrough is this:

Once viruses, infections, or parasites leave the body, mitochondria do not automatically regenerate.

Removing the virus, parasite, or bacterial load is only half of the solution. This means that even after a person “clears” an infection, the cellular energy system may remain depleted. At that stage, something additional must happen to restore function.

This explains why so many people remain exhausted and depressed for months or even years after:

  • the virus is cleared,
  • lab tests are “normal,”
  • and no obvious pathogen can be detected.

Why the Microbiome Matters

The Missing Link: The Microbiome–Mitochondria Axis

Here is where BiomeTech's core discovery emerges.

The body does have a mechanism to rebuild mitochondrial capacity, but it depends on the microbiome.

The microbiome produces specific proteins that:

  • increase the number of mitochondria,
  • restore their activity,
  • and help cells return toward their original energetic capacity.

If the microbiome is not healthy, these proteins are not produced in sufficient amounts. As a result, mitochondrial levels remain low, and fatigue becomes chronic.

In other words: without a healthy microbiome, mitochondria remain depleted, and fatigue becomes chronic.

This pattern is seen clearly in long Covid, Lyme disease, and other chronic conditions that can last for years and are often accompanied by depression and persistent exhaustion.

This is not theoretical. BiomeTech has observed this directly.

Why Destroying Pathogens Is Not Enough

One of the most important realizations in this work came from a concern about parasite cleansing. It is possible to kill parasites very effectively.

However, if a person does not have enough mitochondrial activity, the body may:

  • lack the energy to eliminate what has been killed,
  • lack the biochemical capacity to process byproducts,
  • and lack the ability to rebuild mitochondrial infrastructure afterward.

In other words, pathogens can be destroyed, but without energy, the body cannot complete the job.

That is why it is essential to address both processes at the same time:

  1. eliminating parasites, viruses, bacteria, and residues,
  2. restoring mitochondrial capacity via the microbiome.

When done together, this approach doesn't just solve one problem — it improves every intervention. All products work better when mitochondrial energy is restored, becauseeverything in the body depends on energy availability.

Most people understand that infections need to be removed. That part is familiar.

What is less understood is that the byproducts of infections can remain for a long time, especially when mitochondrial activity has been reduced. Many pathogens lower mitochondrial function at different levels, and this effect can persist even after the infection itself is gone.

Healing, therefore, has two stages:

  1. removal of the trigger,
  2. restoration of cellular energy.

The second stage does not happen automatically.

How Much Mitochondrial Activity Is Enough?

There is no fixed number of mitochondria that applies to all cells. The required amount varies depending on the tissue.

What matters is this: The body always aims for the maximum optimal level.

The body has repair mechanisms designed to bring mitochondrial activity back toward an optimal range — roughly what could be described as 90–100% functional capacity. To do that, it requires the signaling proteins produced by a healthy microbiome. Without those proteins, regeneration remains incomplete.


The Breakthrough Observation

At BiomeTech, researchers examined people who had:

  • eliminated viruses,
  • cleared vaccine spike residues,
  • yet remained exhausted and depressed for months or even years.

Electron microscope analysis revealed the key difference:

their cells showed very low mitochondrial activity.

The virus was gone. The spikes were gone.

But the mitochondria had not recovered.

To solve this, BiomeTech took cells from these individuals and introduced them into a challenged microbiome environment.

The bacteria responded by producing specific countermeasure proteins — proteins that:

  • increase mitochondrial number,
  • restore mitochondrial activity,
  • and re-enable cellular energy production.

This completed the missing piece.


Healing became a four-part process:

  1. remove viruses, bacteria, parasites, protozoa, and residues (including eggs),
  2. regenerate the microbiome,
  3. restoring mitochondrial number and activity,
  4. and reactivating the body's own repair intelligence.

Full Recovery Requires Energy

Many pathogens drain cells of their natural life force. Not all of them reduce mitochondria equally, but most do and often at multiple levels.

True recovery happens only after:

  • pathogens are eliminated,
  • residues are cleared,
  • the microbiome is regenerated,
  • and mitochondria are rebuilt.

That last stage — mitochondrial regeneration — is where energy, vitality, and resilience return.

Healing is not just about removing what does not belong.

It is about restoring the energetic capacity of the body so it can function as designed.

When mitochondria are restored through the microbiome, the body does not merely survive — it regains its ability to repair, adapt, and thrive.

This is the real breakthrough.


Amplifying the Body's Intelligence Through Microbiome–Mitochondria Synergy

This is where BiomeTech's technologies add a meaningful layer: they don't replace the body's intelligence, they amplify it. By supporting cellular communication, microbiome balance, and signaling pathways, they help keep the system oriented toward DNA maintenance, coherence, and long-term resilience.

Through microbiome regeneration and improved microbial signaling, this technology can support mitochondrial number and mitochondrial function, increasing available cellular energy. When mitochondrial capacity rises, the body has more resources for repair, immune coordination, and detoxification.

Rather than simply suppressing or “destroying” viruses, parasites, or other stressors, the approach supports the body's own elimination mechanisms — helping unwanted loads to be processed and released through pathways the body already has.

This level of clearance requires a high-functioning mitochondrial network, and by improving microbiome health, the BiomeTech's technology indirectly supports mitochondrial performance, energy production, and systemic resilience.

BiomeTech has reached a breakthrough through technologies that also support mitochondrial performance — via the microbiome.

BiomeTech solutions do not focus on targeting individual issues in isolation. Instead, they work by supporting the restoration of the body's capacity to respond. By improving energy production, immune coordination, and cellular signaling, the body is given the propulsion it needs to address root causes while simultaneously repairing the downstream consequences they created. By restoring balance within the microbiome, the body gains better access to its own repair and regulatory mechanisms.

When mitochondrial function improves and the microbiome is regenerated, the immune system becomes more intelligent and efficient, repair mechanisms come back online, and resilience increases. This is not about fighting one trigger at a time, but about enabling the body to do what it is designed to do: regulate, repair, adapt, and heal.