By Lindsey John Taylor, Co-Founder of OxyPet

What This Study Could Mean for Dogs & Cats (and Why It Matters)

We already know oxygen is essential — every cell in the body needs it to function, heal, and thrive. But here’s the deeper question:

Can oxygen from OxyPet actually reach the tissues beneath the skin — where healing, inflammation, and regeneration happen?

This independent case study suggests that it can. Using a noninvasive clinical method called TCOM (transcutaneous oxygen measurement), researchers saw a major increase in oxygen reaching peripheral tissues—well beyond what tap water or bottled water could do.

🧪 Case Study Overview

Conducted by: Dr. Kulin Sándor (MD), Prof. Sam Lingam (MD) Method: Transcutaneous Oxygen Measurement (TCOM)Focus: Tracking tissue oxygenation after consuming different types of water

💡 Note: This case study was conducted exclusively on human participants, not animals — in line with our core values to protect animal welfare. We observe potential benefits in dogs through lived experience and responsible use, not invasive testing.

💭 The Question

OxyPet’s nano-oxygen particles carry a natural negative charge (zeta potential) — the same charge as healthy cells and skin tissue. Literature suggests this may enhance their ability to be absorbed and delivered where needed.

| So the question was simple:

Can oxygen from OxyPet oxygen water for dogs move beyond the bloodstream and into actual tissue?

🔬 The Method

Two male participants took part in the study. On separate days, they consumed:

• Municipal tap water

• Standard bottled water

• OxyPet Nano-Oxygen Water
  

After consumption, TCOM electrodes were placed on viable tissue adjacent to the liver. This non-invasive tool measures how much oxygen is reaching the skin and tissues — a strong indicator of blood flow and healing potential. 📊 The Results (Participant 1 – Highlighted)

• Baseline reading (fasted, no water): 54 mmHg (stable for 4 hours)

• After 750ml tap water: Peaked at 57 mmHg — a mild 6% increase

• After 750ml OxyPet Water (on separate day): Peaked at 75 mmHg — a 39% increase from baseline Oxygenation rose rapidly within 20 minutes and remained elevated for 3.5 hours
  

✅ The oxygen reaches beneath the skin, not just into the bloodstream.

 Why This Could Matter for Dogs & Cats

If OxyPet could increase tissue-level oxygenation in humans, it may offer similar support to dogs — especially in areas where blood flow and healing are compromised.

1. Dogs & Cats with Inflammation, Skin Conditions or Wound Healing Needs

Improved tissue oxygenation could help nourish cells, calm inflammation, and accelerate skin recovery.

2. Senior Dog & Cats or with Poor Circulation

As dogs age, blood flow to extremities can become sluggish. More oxygen reaching tissues may support vitality, warmth, and mobility.

3. Brachycephalic Breeds (e.g. Frenchies, Bulldogs, Cavaliers)

These breeds already struggle with oxygen intake. Delivering oxygen through the gut and into the tissues could offer relief and balance.

4. Dogs & Cats in Recovery

Post-surgery, illness, or trauma — oxygen is essential to repair, detox, and restore. Supporting this naturally and non-invasively could improve comfort and speed up the process.

Could This Supercharge Nutrient and Oxygen Delivery?

Because OxyPet oxygen particles may be absorbed quickly and reach deeper tissues, it could enhance:

• Cellular energy production (ATP)

• Nutrient transport to muscles and organs

• Waste removal and detox support

• Overall tissue function and hydration

This adds another layer to how OxyPet could support your dog — not just with hydration, but with deep oxygen nourishment at a cellular level.

Final Thought

This study adds to a growing picture:The nano-bubble oxygen in OxyPet doesn’t just work in theory — it may reach where your dog’s & Cats body needs it most.

Whether it’s skin, muscle, gut, or recovery support, nano-bubble oxygen could be one of the simplest, most natural ways to support your dog’s vitality — without strain or stress.

📥 [View Case Study Five – PDF] 

(Independent human tissue oxygenation study on OxyPet Nano-Oxygen Water)

Disclaimer:

This article is for informational and educational purposes only. It does not constitute medical advice. Everything shared here is purely educational, based on independent findings and lived experience. The potential benefits described are based on preliminary research findings. As always, check in with your integrated veterinary professional if your dog or cat has a health condition. References:

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2. Forth W, Adam O. Uptake of oxygen from the intestine—experiments with rabbits. Eur J Med Res. 2001 Nov 20;6(11):488–92. 🔗 https://pubmed.ncbi.nlm.nih.gov/32100358/
   

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4. Pittman RN. Oxygen Transport. Regulation of Tissue Oxygenation. Morgan & Claypool Life Sciences; 2011 [cited 2022 Nov 26]. 🔗 https://www.ncbi.nlm.nih.gov/books/NBK54103/
   

5. Hypoxia - StatPearls - NCBI Bookshelf [Internet]. [cited 2022 Dec 15]. 🔗 https://www.ncbi.nlm.nih.gov/books/NBK482316/
   

6. Khoo J, Hagemeyer CE, Henstridge DC, Kumble S, Wang TY, Xu R, et al. Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomised placebo-controlled trial. PLoS ONE. 2021 Jul 14;16(7):e0254619. 🔗 https://pubmed.ncbi.nlm.nih.gov/34260650/
   

7. Moen I, Ugland H, Strömberg N, Sjöström E, Karlson A, Ringstad L, et al. Development of a novel in situ gelling skin dressing: Delivering high levels of dissolved oxygen at pH 5.5. Health Sci Rep. 2018 Jun 13;1(7):e57. 🔗 https://pubmed.ncbi.nlm.nih.gov/30623087/
   

8. Honary S, Zahir F. Effect of Zeta Potential on the Properties of Nano-Drug Delivery Systems - A Review (Part 1). Trop J Pharm Res. 2013 May 9;12(2):255 64. 🔗 https://pubmed.ncbi.nlm.nih.gov/39369767/
   

9. Patra JK, Das G, Fraceto LF, Campos EVR, Rodriguez-Torres M del P, Acosta-Torres LS, et al. Nano based drug delivery systems: recent developments and future prospects. J Nanobiotechnology. 2018 Sep 19;16(1):71. 🔗 https://jnanobiotechnology.biomedcentral.com/articles/10.1186/s12951-018-0392-8
   

10. Handajani YS, Tenggara R, Suyatna FD, Surjadi C, Widjaja NT. The effect of oxygenated water in Diabetes Mellitus. Med J Indones. 2009 May 1;18(2):102–7.🔗 https://mji.ui.ac.id/journal/index.php/mji/article/view/351
    

11. Aoki K, Ida Y, Fukushima N, Matsumura H. Topical application of oxygen nano-bubble water enhances the healing process of ischaemic skin wound healing in an animal model. Int Wound J. 2022 Apr 10;19(7):1843–52. 🔗 https://pubmed.ncbi.nlm.nih.gov/35403362/