Doctor who discovered Cancer blames lack of Oxygen

The Man Who Discovered Cancer

The Man Who Discovered Cancer

Dr. Otto H. Warburg won a Nobel Prize for discovering the cause of cancer. There is one aspect of our bodies that is the key to preventing cancer: pH levels.

What Dr. Warburg figured out is that when there is a lack of oxygen, cancer cells develop. As Dr. Warburg said, “All normal cells have an absolute requirement for oxygen, but cancerous cells can live without oxygen – a rule without exception. Deprive a cell of 35% of it’s oxygen for 48 hours and it may become cancerous.” Cancer cells therefore cannot live in a highly oxygenated state, like the one that develops when your body’s pH levels are alkaline, and not acidic.

Most people’s diets promote the creation of too much acid, which throws our body’s natural pH levels from a slightly alkaline nature to an acidic nature. Maintaining an alkaline pH level can prevent health conditions like cancer, osteoporosis, cardiovascular diseases, diabetes, and acid reflux. Eating processed foods like refined sugars, refined grains, GMOs, and other unnatural foods can lead to a pH level that supports the development of these conditions, and leads to overall bad health. In fact, most health conditions that are common today stem from a pH level that is too acidic, including parasites, bacteria, and viruses are all attributed to an acidic pH level.

There is a natural remedy that you can use at home that is simple, and readily available. All you need is 1/3 tablespoon of baking soda, and 2 tablespoons of lemon juice or apple cider vinegar. Mix the ingredients into 8ounces of cold water, and stir well. The baking soda will react with the lemon juice or ACV and begin to fizz. Drink the mixture all at once. The combination will naturally reduce your pH levels in your body and prevent the conditions associated with an acidic pH level. Maintaining a healthy pH level will do wonders for your health, and you will notice the difference after only a few days of the treatment.

 

Source:  buynongmoseeds.com

Oxygen Particle Live Without Breathing

New Medical Discovery

Scientists Invent Oxygen Particle That If Injected, Allows You To Live Without Breathing

Scientists Invent Oxygen Particle That If Injected, Allows You To Live Without Breathing

 

 

 

 

 

 

 

A team of scientists at the Boston Children’s Hospital have invented what is being considered one the greatest medical breakthroughs in recent years. They have designed a microparticle that can be injected into a person’s bloodstream that can quickly oxygenate their blood. This will even work if the ability to breathe has been restricted, or even cut off entirely.

This finding has the potential to save millions of lives every year. The microparticles can keep an object alive for up to 30 min after respiratory failure. This is accomplished through an injection into the patients’ veins. Once injected, the microparticles can oxygenate the blood to near normal levels. This has countless potential uses as it allows life to continue when oxygen is needed but unavailable. For medical personnel, this is just enough time to avoid risking a heart attack or permanent brain injury when oxygen is restricted or cut off to patients.

Dr. John Kheir, who first began the study, works in the Boston Children’s Hospital Department of Cardiology. He found inspiration for the drug in 2006, when he was treating a girl in the ICU who had a severe case of pneumonia. At the time, the girl didn’t have a breathing tube, when at the time she suffered from a pulmonary hemorrhage. This means her lungs had begin to fill up with blood, and she finally went into cardiac arrest. It took doctors about 25 minutes to remove enough blood from her lungs to allow her to breath. Though, the girl’s brain was severely injured due to being deprived of oxygen for that long and she eventually died.

Microparticle Composition

The microparticles used are composed of oxygen gas pocketed in a layer of lipids. A Lipid is a natural molecule that can store energy and act as a part of a cell membrane, they can be made of many things such as wax, vitamins, phospholipids, and in this case fat is the lipid that stores the oxygen.

These microparticles are around two to four micrometers in length and carry about three to four times the oxygen content of our own red blood cells. In the past, researchers had a difficult time succeeding as prior tests caused gas embolism. This meant that the gas molecules would become stuck trying to squeeze through the capillaries. They corrected this issue by packaging them into small deformable particles rather ones where the structure was rigid.

Potential Future Uses

Medical: There is the obvious medical uses where the microparticles can be used to save off death from a restriction in breathing due to inflammation of the lungs, collapsed lungs, and the like. It would be good to have these injections ready in hospitals and ambulances for when the time is needed.

Military: Can you imagine a navy seals capability when they wouldn’t need to surface for air and could stay underwater for over 20 minutes? If a boat was to begin to sink, you could shoot yourself as the boat is going down to ensure you aren’t drowned in the under current of the sinking vessel. How about for toxic gases when a facemask is unavailable. The military could have a number of uses for such a medical advancement.

Private Sector: Really this can be used as a precaution for anything nautical where the potential to drown is a real danger. Deep sea rescue crews could inject themselves prior to making a rescue, underwater welders can use it in case they become stuck or air is lost to their suits. The potential use for anything water related seems extremely worthwhile.

Conclusion

In the end, this is an amazing medical advancement and I cant help but recall the movie the Abyss when they took the pill, their helmets filled with air, and they were told they can breathe the water. Well what if they really couldn’t “breathe” water” but since the urge to breathe is natural, that must take place… even if you’re not breathing air per se. But your body was provided with enough oxygen for a time period by taking a pill. It’s just goes to show that anything, absolutely anything that can be thought up, can potentially one day become reality.

Breathe Underwater Injecting Oxygen Into Your Bloodstream

You May Soon Breathe Underwater By Just Injecting Oxygen Into Your Bloodstream:

You May Soon Breathe Underwater By Just Injecting Oxygen Into Your Bloodstream

You May Soon Breathe Underwater By Just Injecting Oxygen Into Your Bloodstream

Do you ever actually pay attention to your own breathing? Do you realize how important it is to your continued survival? The oxygenation of blood is what keeps you alive every day. Without oxygen or breathing for that matter, your cells and brain begin to die. Thanks to a revolutionary scientific breakthrough, that may no longer be the case. Researchers at the Boston Children’s Hospital have designed an oxygen microparticle that can be injected directly into the bloodstream. From there, it oxygenates the blood without the need for breathing. Obviously, the breakthrough has immense importance in the medical field. The creator of the microparticle, Dr. John Kheir, had to watch a young girl die as her brain was damaged beyond repair due to lack of oxygen. He started the research in hopes of finding a way to keep the blood oxygenated during situations in which the lungs might not be working. The injection can keep oxygen levels at normal for about 20 minutes. That’s enough time to save thousands of lives. Of course, there are other awesome applications beyond saving lives. The new microparticle will enable people to breathe underwater. They wouldn’t literally be breathing underwater, but it would allow people to hold their breath for 20 minutes at a time. It doesn’t even have to apply to being underwater. Any scenario that requires a person to hold their breath would be instantly relieved with an injection of oxygen. This could probably be the biggest advancement in medical technology in years. As it improves, doctors may even be able to get rid of expensive respirators altogether. Saving lives will be much easier when you can just inject the oxygen.