Anti-Aging Treatments


Did you know that your body feeds its immune system every 4 seconds? Yes, it dumps oxygen into your body with every breath over 23,000 times a day. Then your immune system gobbles up this vital element as fast as it can.

While nature intended oxygen to protect you from degenerative diseases, recent scientific discoveries have exposed a horrifying truth: Modern living has severely hobbled your bodies’ ability to deliver oxygen to the immune system.

The result? An immune system that cannot protect your health like it should. This results in fatigue, fibromyalgia, neurologic disorders, heart disease, and yes even cancer. Cancer flourishes without oxygen.

reverse_agingI see patients everyday whose bodies are under siege and slowly losing the battle against disease because their defense system is undernourished. It is a nationwide epidemic. Since World War II, America’s level of health has dropped from the world’s highest to the lowest among the industrialized nation. Obviously, there is something wrong with our modern lifestyle. If our immune system were in tip-top shape, we wouldn’t have filled 1.69 billion prescriptions in retail drug stores last year. Fortunately, there is a solution besides doping up with more prescription drugs.

By giving your immune system the extra oxygen it is craving, you can live a longer, healthier, more energetic life, no matter what your age or physical condition.

Cancer, high blood pressure, obesity, arthritis, heart disease, colds and flu, depression, strokes, and over a 100 other life threatening problems can be delayed, prevented or possibly even reversed using these simple solutions. Find that hard to believe?

Well, I am going to give you some studies, and I can tell you that since 2000, I have been using hyperbaric oxygen, as well as ozone in my own treatment. As you recall, back in 2000, I had a CT scan of my chest and PET scan which was compatible with lymphoma. At that time, I had to choose between a traditional or an alternative path. I choose the alternative path and I am glad to announce that my PET scan is clean and my recent cancer stem-cell test from the RGCC cancer laboratory in Greece is normal. Yes, I have no more cancer.


At sea level we breathe air at about 1 ATM pressure or about 15 pounds per square inch. However, go under water to just 33 feet and the pressure of just that 33 feet of water equals 1 mile of pressure of the earth’s atmosphere and you will be at least at 2 ATMs pressure. THE increased pressure radically changes the physics of oxygen transport in a manner that can dramatically accelerate the healing in many conditions. Oxygen is the most critical substance for life.

Complex life forms require a means to transfer oxygen to every cell in the body. Thus, lungs or gills exchange oxygen and carbon dioxode waste and together with the circulation system, carry oxygen from the lungs to those cells. Red blood cells contain and iron-bound substance called hemoglobin which absorbs oxygen when the oxygen tension is high and releases the oxygen when the tension is low, that is in the tissues. Ordinarily, all of the oxygen used is carried by the red blood cells.

This is because oxygen is highly soluble in water, so the fluids in the body cannot carry it. If the red cells cannot reach a particular area, then that area will become compromised and the cells could die resulting in a condition like a heart attack or stroke.

Air is about 20% oxygen. One ATM equals 760 millimeters of mercury. The partial pressure of oxygen, therefore, is 20% of 760 mm or about a 150 mm. That is the pressure of oxygen outside your mouth at sea level and what you breathe in. In the lungs, however, there is significant amount of carbon dioxide leaving the blood for the exultation when you release your breath. Having a pressure of about 40, this dilutes the pressure of oxygen inside the normal lung still further to approximately 100 to 110.

When the blood cells reach the smallest vessels, the capillaries, they are exposed to the oxygen poor environment among the working cells of the body. This low oxygen tension must make its way into cells through diffusion and by the time we look at the oxygen tension inside the cell where it is being burned, tension may be less than 5 mm.

Hyperbaric oxygen alters body physics allowing it to manage oxygenation of compromised tissue totally independent of red blood cells. Under pressure, oxygen does dissolve in water and body fluids. Hyperbaric oxygen can cause more of the oxygen to dissolve in the water of the body than at sea level.


Currently, hyperbaric oxygen therapy is used to treat a wide variety of conditions with new applications being researched on a continuous basis. There are currently 15 conditions treated with hyperbaric that are approved by the FDA in the US. These are typically reimbursed by insurance companies and include such things as gas embolism, carbon monoxide poisoning, cyanide poisoning, crush injuries, decompression sickness, osteomyelitis that has been refractory, radiation tissue damage, thermal burns, and others. This exposé is concerned with off-label non FDA approved therapies that have scientific data supporting them but are NOT currently approved by the FDA.

These include:

  • Autistic Spectrum Disorder.
  • Allergies, Asthma, and Immunity.
  • Amyotrophic Lateral Sclerosis (ALS).
  • Alzheimer’s.
  • Arthritis.
  • Bells Palsy.
  • Brain injury.
  • Burns.
  • Cerebral Palsy.
  • Chronic Fatigue Syndrome.
  • Fibromyalgia.
  • Lyme.
  • Migraines.
  • MS.
  • Dementia.
  • Sports performance and injury.
  • Stroke.
  • General wound healing.
  • Post surgical healing.
  • Cosmetic surgery and post plastic surgery.
  • Anti-aging purposes.

As discussed above, hyperbaric oxygen is accepted and approved in only limited applications by FDA approved traditional medicine. In the case of carbon monoxide poisoning oxygenation of the body is thwarted. Carbon monoxide has a higher affinity for hemoglobin than does oxygen. Thus, the red blood cell will carry carbon monoxide and the body will store it for oxygen. Hyperbaric will successfully get oxygen to the tissues.


Osteomyelitis is a dangerous condition. Circulation of the bone is very sluggish and if an infection gets established, the slow circulation can permit a nasty and stubborn infection that becomes chronic and takes months to heal with conventional antibiotics. The heart of the infection management is oxygen. Besides from the fact that most pathogens thrive in low oxygen tensions, the defender of the body, the white blood cells are heavily dependent on oxygen to fight and kill bacteria. When white cells encounter infection they produce a “respiratory burst” in which they need and use up to 100 times the amount of oxygen they utilize in the resting state. Hence, hyperbaric has its proven merits in the treatment of osteomyelitis.


Now you might ask, if hyperbaric aides in the treatment of osteomyelitis and oxygen is so important in the management of infections, why is this modality not used more where patients have serious or life-threatening infections?

I have found that hyperbaric, as well as ozone works for all infections in any part of the body and I use them in conjunction. Please see elsewhere in this site concerning a thorough explanation of intravenous ozone. I am currently performing ozone under an investigational research board study.


There is another place where hyperbaric and ozone has great usefulness. Yet, you will see it is not FDA approved and not used in many locations. Stroke patients have neurological deficit due to a circulatory obstruction or bleeding in the neurologic tissue, which impairs oxygen delivery. Brain tissue can live for only 3 minutes without oxygen before it begins to degenerate.

Only a few more minutes of total oxygen deprivation will result in the death of the cells. This neurological damage in stroke does not necessarily result in complete cell death in the affected areas.

A stroke results in a pattern much like an eclipse. That is, there is a relatively small area of total oxygen deprivation and cell death and the much larger area where the cells have enough oxygen to survive, disabled and damaged, but still alive. Dead cells are gone forever, but viable cells, even if damaged, can be saved if caught in time. The stroke area consists of a clot or a bleed, in which the immediate surrounding may be dead, but if you move more away from the epicenter, sort of speak, the zone of death turns into a much larger zone of injury.

If oxygen can be delivered to these cells before they die, they can repair themselves and the supporting tissue to begin to generate new blood vessels. Hyperbaric to the rescue!

Treatment can restore life giving oxygen to the afflicted area even in the presence of complete obstruction of blood. Cells can be salvaged, new growth is encouraged, and damage is minimized. Obviously, the earlier one intervenes in a stroke case the better.

Neurons deprived on oxygen are fragile and the longer they are without it the more irreversible damage there will be.


Hyperbaric is commonly used in England to treat multiple sclerosis. Many practitioners around the country, including myself, have reported improvements in fibromyalgia, chronic fatigue, and circulatory impairment. All of this is based on getting optimal oxygen to compromised areas. It is well know that most infectious organisms are compromised by oxygen while our cells thrive. No wonder the improvement.

Hyperbaric therapy is gradually making inroads. I have been using my own hyperbaric since 2000, and feel that it has improved my quality of life and my medical status.

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