Beyond Repair: Long-Haul COVID, the Microbiome, Micronutrients, and the New Frontiers of Healing
- Davin Soernssen DNP, FNP-BC, DCNP
- Apr 27
- 3 min read
Introduction
The pandemic may be slowing down, but the aftershocks are not. Millions of people
worldwide continue to struggle with long-haul COVID, a complex, debilitating syndrome
affecting the gut, brain, heart, and energy systems long after the initial infection clears. Today we know more than ever about why some people recover quickly while others endure months or years of symptoms (COVID-19. Gut, 7). Much of that story starts not with the virus itself, but with the gut microbiome, the delicate endothelial lining, and the micronutrient reserves that fuel cellular and mitochondrial health.
In this blog, we'll dive into how COVID-19 disrupts the body’s internal ecosystems — and
the most promising strategies to rebuild from the inside out, including cutting-edge
therapies like Ozone IV Major Autohemotherapy with UV light (Ozone MAH UV) (De Nisco, N. J., et al., 2020).
The Human Microbiome Project: Setting the Stage
Launched in 2007, the Human Microbiome Project (HMP) revealed that our bodies are ecosystems made up of trillions of microorganisms. The HMP showed that health requires a balanced, diverse microbiome, and that loss of beneficial bacteria leads to chronic inflammation and disease (NIH, Human Microbiome Project Consortium, 2012).
How COVID-19 Wrecks the Microbiome
Studies now confirm that COVID-19 profoundly disrupts the gut microbiome (Zuo, T., et al., 2020; Yeoh, Y. K., et al., 2021; Chen, Y., et al., 2022). Researchers found decreased beneficial bacteria such as Bifidobacterium, Faecalibacterium prausnitzii, and Ruminococcus species with the exception of Ruminococcus gnavus and torques which was increased significantly, while Bacteroides species became more dominant. This dysbiosis contributes to chronic inflammation, gut permeability (NIH Human Microbiome Project Consortium, 2012) and energy deficits.
The Endothelial Connection: The Hidden Injury
Beyond the gut, COVID-19 directly damages the endothelial lining — the thin cellular layer lining blood vessels (Yeoh, Y. K., et al., 2021). When damaged, this leads to microclotting, oxygen delivery problems, chronic fatigue, cardiovascular risks, and brain inflammation.
Micronutrients: The Foundation of Cellular and Mitochondrial Health
At the cellular level, long-haul recovery depends on rebuilding the body’s machinery — and that means restoring micronutrients. Micronutrients like magnesium, zinc, vitamin D, B vitamins, and selenium are essential for mitochondrial energy production, immune modulation, and antioxidant defense (Varga, Z., et al., 2020; Cecchini, R. &; Cecchini, A. L., 2020). COVID-19 can deplete these nutrients through oxidative stress and inflammation, slowing recovery.
The New Healing Toolkit for Long-Haul COVID
An integrated approach to healing includes:
Ozone IV MAH UV: Repairing the Damage from the Inside
Ozone therapy enhances oxygenation, reduces inflammation, breaks down microclots, and repairs endothelial tissue (De Nisco, N. J., et al., 2020; Bocci, V., et al., 2011). It stimulates natural healing at the vascular and cellular level, offering a root-cause solution for persistent long-haul COVID symptoms.
Final Thoughts
COVID-19 was more than a respiratory illness — it was a metabolic and vascular assault.
Healing from long-haul COVID requires a systems biology approach: repairing the
microbiome, restoring micronutrients, regenerating the endothelium, and rebuilding
mitochondrial energy production. When you rebuild the ecosystems inside you —
microbial, vascular, and cellular — you don't just recover. You come back stronger.
References:
NIH Human Microbiome Project Consortium. (2012). Structure, function and diversity of the healthy human microbiome. Nature, 486, 207–214. https://doi.org/10.1038/nature11234
Zuo, T., et al. (2020). Alterations in gut microbiota of patients with COVID-19 during time of
hospitalization. Gastroenterology, 159(3), 944-955.e8.
Yeoh, Y. K., et al. (2021). Gut microbiota composition reflects disease severity and
dysfunctional immune responses in patients with COVID-19. Gut, 70(4), 698–706.
Chen, Y., et al. (2022). The microbiota continuum along the human gut and its disruption in
COVID-19. Gut, 71(1), 76-84. https://doi.org/10.1136/gutjnl-2020-323701
Varga, Z., et al. (2020). Endothelial cell infection and endotheliitis in COVID-19. The Lancet,
395(10234), 1417-1418. https://doi.org/10.1016/S0140-6736(20)30937-5
Cecchini, R. &; Cecchini, A. L. (2020). SARS-CoV-2 infection pathogenesis is related to
oxidative stress as a response to aggression. Medical Hypotheses, 143, 110102.
Mehta, P., et al. (2020). COVID-19: consider cytokine storm syndromes and
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6736(20)30628-0
De Nisco, N. J., et al. (2020). Akkermansia muciniphila: A new target for metabolic
syndrome. Cureus, 12(9), e10325. https://doi.org/10.7759/cureus.10325
Bocci, V., et al. (2011). Ozone therapy: A clinical review. Journal of Natural Science, Biology
and Medicine, 2(1), 66–70. https://doi.org/10.4103/0976-9668.82319
Elvis, A. M., &; Ekta, J. S. (2011). Ozone therapy: A clinical review. Journal of Natural Science, Biology, and Medicine, 2(1), 66–70. https://doi.org/10.4103/0976-9668.82319
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