Can KAQUN High Oxygen Water Raise Oxygen Levels and Improve Your Health?

The Hidden Danger of Hypoxia

Hypoxia is silent and deadly. Hypoxia ( low oxygen levels in the body) has been shown to lurk behind many serious health conditions, including diabetes, heart disease, slow wound healing, and even cancer. Hypoxia describes the condition where cells are not receiving enough oxygen. In other words, hypoxia literally means low oxygen levels in your body.

Conventional treatment tends to focus on medication, therapies and lifestyle changes. But there is growing science-backed evidence highlighting the importance of improving oxygenation for the cells.

KAQUN High Oxygen Water delivers oxygen rich water to support the body’s oxygen levels, KAQUN water can help to reduce the effects of hypoxia, support better functioning cells, and improve overall health.

Three Key Points

• KAQUN High Oxygen Water raises oxygen levels in the body. This helps cells to produce energy efficiently, improve organ function and reduce the effects of hypoxia on cells.
  
• KAQUN supports recovery and healing. This results in faster wound healing, reduces chronic inflammation, and speeds up recovery after illness
  
• KAQUN supports metabolic health . By increasing the oxygen supply to the fat and liver cells, KAQUN water may help counter insulin resistance, support healthy metabolism, and reduce risks associated with diabetes, fatty liver, and other hypoxia-related conditions.
  

What Causes Hypoxia?

Hypoxia can happen to anyone for a variety of reasons, and it is linked to many different medical conditions.

Some reasons for hypoxia include:

• Low oxygen in the air ( in an airplane, at high altitude)
• The blood can’t carry oxygen well ( as in anemia, blood loss, blocked arteries)
  
• The tissues can’t absorb oxygen ( such as in lung disease)
  
• The cells can’t use oxygen ( due to the presence of carbon monoxide or mitochondrial problems)
  

There is also a higher risk of hypoxia with age due to the following:

• Reduced lung capacity
  
• Hardened or blocked arteries
  
• Poor circulation in small vessels
  

Other contributing factors to hypoxia are:

• Pollution
  
• smoking
  
• Poor breathing patterns
  

Cell Degeneration and Hypoxia

When cells don’t get enough oxygen (hypoxia), they lose energy and can’t function properly. This weakens the organs and can trigger disease. Oxygen-starved cells may also break down or die early resulting in degeneration.

Degeneration is a key marker of aging and diseases such as dementia or retinal degeneration. As we grow older, reduced lung capacity and blocked arteries make it harder to deliver oxygen to cells, creating a vicious cycle of hypoxia and degeneration.

Oxygen is vital to life. Without it, cells can’t power essential functions, and overall health declines.

Hypoxia and Diabetes

Hypoxia contributes to poor blood circulation and the progression of diabetic complications for those who have diabetes mellitus ( abnormal glucose metabolism.)

Hypoxia impacts diabetic patients. People with diabetes often have microangiopathy, a condition where small blood vessels are narrowed and damaged by high blood sugar, restricting blood flow and making it harder for oxygen to reach tissues.

A Dutch study showed that diabetic patients consistently have lower tissue oxygen levels than healthy individuals.

Doctors at the Hyperbaric Unit, Royal Adelaide Hospital found that increasing body oxygen using Hyperbaric Oxygen Therapy (HBOT) improved insulin response and blood sugar control in diabetic patients.

Hypoxia and Sleep Apnea

Obstructive sleep apnea (OSA) occurs when throat muscles block the airway during sleep, causing intermittent oxygen deprivation. This intermittent lack of oxygen OSA increases insulin resistance and raises the risk of diabetes.

Hypoxia is Cancer’s Best Friend

According to Medical News Today, ‘1 in 2 people will develop cancer in their lifetime’.
Most cancers have low oxygen levels (hypoxia) in their tissues and these cancer cells tend to be more aggressive and spread faster This link has been recognized since the 1930s, when Nobel Prize–winning scientist Otto Warburg discovered that cancer cells thrive in low-oxygen conditions, highlighting hypoxia as a key driver in cancer proliferation. The cancer cells produce cancer stem cells in hypoxic environments and these cells evade the immune system and seed new tumours.

Nobel prize winning scientist Professor Gregg Semenza observed that the hypoxic (low-oxygen) environments in tumors act as kinds of protective nurseries for cancer stem cells. Although chemotherapy may destroy up to 99% of cancer cells, these resilient stem cells may often survive, driving metastasis (the spread of cancer) to other parts of the body.

Hypoxia: A Barrier to Effective Cancer Treatment

Low oxygen levels in tumors, known as hypoxia, make cancer treatment less effective. Radiation therapy works best when oxygen is present, so hypoxic cancer cells are much harder to destroy. Chemotherapy is also less effective in these conditions, as the low oxygen reduce the effectiveness of the drugs.

Fatty Livers Are Hypoxic

Fatty Liver Disease is common in developed countries. In fatty livers, cells get less oxygen, especially with high-fat diets, and this low-oxygen (hypoxic) state helps the disease to advance . The liver needs oxygen to make energy for its functions, and when oxygen is low, energy production drops drastically which weakens the liver and makes the liver cells more prone to damage.

Hypoxia in Heart Attack and Stroke

Hypoxia is the main cause of cell death in heart attacks and strokes.Heart cells need constant oxygen to pump blood 24/7. Brain cells have almost no oxygen reserve and require high levels of energy.

Heart and brain cells are extremely sensitive. Heart cells die within 20 minutes of oxygen deprivation and brain cells can die in minutes.

Blocked arteries can create hypoxia, causing heart failure or stroke. Depending on the brain region affected, stroke can result in paralysis, loss of speech, blindness, coma or death.

Hypoxia and Chronic Wounds

Oxygen is essential for healing wounds, fighting infection, and cell repair. When oxygen levels are low, healing slows or stops, leading to chronic wounds such as leg and foot ulcers, especially in people with diabetes or vascular disease. Lack of oxygen also raises the risk of infection, gangrene, and even amputation.

Hypoxia and Erectile Dysfunction

Erectile dysfunction (ED) can result from a reduced oxygen supply to penile tissue. Healthy erections require smooth blood flow and adequate oxygen delivery. Hypoxia in the penis reduces the production of nitric oxide (NO), which helps to relax the blood vessels. Without enough nitric oxide, the blood vessels cannot fully expand, restricting blood flow. This makes it difficult to achieve or maintain an erection. Chronic low oxygen can also damage nerves and smooth muscle, worsening Erectile Dysfunction over time.

Hypoxia and Fibroids and Endometriosis

Low oxygen in the tissue of the uterus contributes to both fibroids and endometriosis. In fibroids, poor blood flow triggers cell growth and new blood vessels, making fibroids larger and worsening symptoms like heavy bleeding, pain, and infertility. This happens because low oxygen activates certain factors which signal the cells to grow and make new blood vessels to survive. In endometriosis, low oxygen helps misplaced uterine tissue to survive and grow in the same way, resulting in more inflammation and scarring.

KAQUN Research & Clinical Studies

• 2004 Hungarian Academy of Sciences: Early lab research suggested biological effects on tumor cells.
  
• 2007 Semmelweis University: Drinking and bathing trials showed benefits for oxygenation, strength, and stress response.
  
• 2009 National Institute of Chemical Safety (NICS): Volunteer study revealed positive shifts in immune activity.
  
• 2010 NICS (HepG2 cells): Cytotoxicity tests confirmed safety at cellular level.
  
• 2010 NICS: Reactive oxygen species experiments indicated balancing effects on oxidative stress.
  
• 2011 NICS: Laboratory tests suggested antioxidant capacity.
  
• 2012 University of Debrecen: Studies involving mice showed slowed tumor growth.
  
• 2012 South Borsod Healthcare Cluster: Human trials showed faster reaction times and improved cognitive function.
• 2013–2015 National Institute of Oncology: Randomized trial in cancer patients reported improved skin tolerance and well-being.
  

 FAQ :KAQUN Water, Oxygen, and Hypoxia

What is hypoxia?

Hypoxia means the cells and tissues are not getting enough oxygen. This reduces energy production, weakens organs, and speeds up disease.

Why is low oxygen harmful?

When oxygen is low, the body activates stress signals (called HIFs) that increase inflammation, drive abnormal cell growth, and make many conditions worse including diabetes, cancer, and heart disease.

How does KAQUN High Oxygen Water help?

KAQUN water contains stabilized oxygen that is easily absorbed by the body. This boosts oxygen levels in the cells, supports healthy energy production, and reduces the negative effects of hypoxia.

How is KAQUN different from oxygen therapy?

Hyperbaric Oxygen Therapy (HBOT) uses oxygen under pressure in a medical setting. KAQUN water offers a simple, non-invasive way to increase oxygen daily and can complement other treatments.

Who can benefit from KAQUN water?

Anyone may benefit, but it can be especially helpful for people with poor circulation, chronic fatigue, slow wound healing, diabetes, or other oxygen-related conditions.

Conclusion

Low oxygen levels in the body trigger many health issues. Hypoxia stimulates the growth of cancer stem cells, increases inflammation in the body and accelerates disease progression.

KAQUN water increases oxygen levels in the body and helps to combat the effects of hypoxia and supports vibrant health.