It is now known that the indications for ozone therapy include cardiovascular care. Cerebrovascular and peripheral vascular diseases, to digestion, breathing, rheumatism, blood. Endocrinology, urogenital, sexually transmitted diseases, skin diseases, parasitic diseases, ophthalmology, stomatology, ENT, burns, extracranial, general, extraosseous, extraspinal. A variety of diseases in pain, tumor, cancer and other departments, as well as weight loss and beauty.
Why can ozone treat so many diseases? This starts with the five major medical functions of ozone.
I. Anti-inflammatory and anti-infective functions
Ozone comes into contact with body fluids (including blood, tissue fluids, lymph fluids, and urine) to produce a single oxygen atom (0) and hydrogen peroxide (H2O2). These are two strong oxidants. Once they enter the body or come in contact with body surface infections Stove, it will directly kill and remove bacteria, anaerobic bacteria, viruses and parasites. If the ozone concentration reaches a certain threshold, its sterilization can be completed in an instant. German scientist Horst Kief believes that ozone's effect on pathogenic microorganisms is comparable to that of formaldehyde solutions. Ozone is a broad-spectrum antibiotic without resistance.
Second, the function of oxidized cholesterol
An article entitled "Evidence of Ozone Formation in Human Atherosclerotic Arteries" was published on page 1053 of the "Science" Journal of the United States in July 302, 2003. This article reported that British scientists found in carotid endarterectomy in 14 patients with atherosclerosis, a unique marker only found when cholesterol was oxidized by ozone: 4b-2.4-dinitrobenzene gland , Referred to as gland 4b, chemical structure analysis also confirmed that ozone can break the Δ56 double bond of cholesterol.
In fact, as early as 1995, the American "Free Radical Biology & Med-icine" magazine Vol. 1, P115-119 published the article "Intravenous Ozone Therapy Reduces Blood Cholesterol in Patients with Heart Disease and Stimulation of Antioxidant Response", Hemandez et al. After 5 to 15 times of autologous blood treatment, plasma cholesterol decreased by an average of 5.5-9.7%, and low-density lipoprotein decreased by an average of 15.4-19.8%. Erythrocyte glutathione peroxidase and glucose Significant increase in 6-phosphate dehydrogenase activity. The article believes that high-pressure ozone autologous blood therapy has beneficial effects on blood lipid metabolism in patients with myocardial infarction, and activates the antioxidant protection system.
2004 "Artif ongans" magazine, Vol. 28, No7, 234-237 published the article "Effect of Ozone Autohemotherapy on Blood Lipid Composition and Endothelial Cells of Hemodialysis Patients". It was reported that TyliCki and other 12 hemodialysis patients with lower extremity atherosclerosis were treated with 9 ozone autohemolysis treatments. As a result, total cholesterol decreased by 8.34% on average, and LDL decreased by 17.9% on average. No significant change in factor VII activity indicates that the therapy does not harm the vascular endothelial cells of such patients, and the reduction of total cholesterol and low-density lipoprotein is beneficial to the improvement of arteriosclerosis in the lower limbs of patients.
Third, the function of pain and analgesia
Ozone can increase the activity of erythrocyte glutathione peroxidase and glucose 6-phosphate dehydrogenase, and enhance the lipid peroxidase response. Ozone can stimulate the release of substances such as enkephalin, which has a similar effect to chemical acupuncture; ozone also It can oxidatively inactivate or decompose various pain substances in the body, and can quickly alleviate hypoxia of various tissues.
Therefore, ozone treatment is a headache. Migraine, gout, rheumatoid rheumatoid pain, inflammatory infectious pain, pain of unknown origin and advanced cancer pain have ideal and rapid treatment effects without any toxicity or pain.
Fourth, the function of improving the body's immunity
Ozone can react with unsaturated fatty acids on the surface of immune cells to generate lipid hydrogen peroxide chains. Lipid hydrogen peroxide chains can be incorporated into human cells, which can activate the nuclear factor NFAN, thereby activating the cell's mRN replication, transcription and translation, and promoting proteins. Synthesis and release of cytokines; ozone can activate immune-active cells, increase the release of interferons, interleukins and other cytokines, enhance the body's immune function; ozone can increase the number of free radicals when it interacts with the body, induce and activate the body's antioxidant Enzyme system, which produces a large amount of free radical scavengers such as superoxide dismutase, glutathione peroxidase and reductase, removing excess free radicals from the body, thereby regulating the body's antioxidant capacity; ozone can promote three completions Circulation, promote the use of sugar by the body, enhance the release of energy, stimulate basic metabolism, limit the burning of proteins and fats, and activate the normal metabolism of the human body; ozone can oxidize and break down waste and toxic substances produced by the body's metabolism, and can oxidize and break down harmful bacteria and viruses The toxic substances produced, on the basis of improving the body's metabolic level, promote the Discharge of harmful substances.
V. Function of supplying oxygen to hypoxic tissue
Ozone can activate red blood cells, increase levels of adenosine triphosphate (ATP) and glyceryl 2.3-diphosphate (2.3-DGP), increase the amount of oxygen carried in the blood and promote the release of oxygen from red blood cells, and increase the oxygen supply to the tissue. Ozone can also enhance the deformability of red blood cells and improve blood rheology; Ozone is easily soluble in water, so it can increase the content of dissolved oxygen in the blood and increase the partial pressure of oxygen, which are all conducive to improving the body's hypoxia situation. Ozone entering the human cavity or contacting the surface of the body can provide oxygen to the ulcerous tissue while resisting inflammation and infection, and promote the recovery of the lesion.
Although ozone has the above five major medical functions, because its molecular structure is a special molecule composed of three oxygen atoms, although it has strong oxidizing properties, it is also very unstable. At room temperature and pressure, it will automatically restore after 20 minutes. For oxygen. Therefore, how to make ozone perform its five major medical functions within 20 minutes before decay is the key to ozone treatment technology. In other words, all ozone produced by ozone generators using medical oxygen as raw materials have five major medical functions, but not all ozone generators can make the five major medical functions of ozone available in a limited time.
The ozone generator is developed for this characteristic of ozone, and its core technology is high-pressure ozone large autohemotherapy.
The so-called ozone autohemotherapy refers to the high-pressure ozone generator that can timely provide negative pressure under the control of a microcomputer when the patient's own 200ml blood is ozonized in vitro, so that 200ml of venous blood is drawn into a vacuum bottle within 3 minutes. It can also apply positive pressure in time, so that the therapeutic concentration of ozone is injected into the vacuum bottle within one minute, and the 200ml blood after ozonation is returned to the patient in about 4 minutes. The whole autologous blood treatment can be completed in only 8-10 minutes. At this time, there is still 12-14 minutes before ozone decay. There is enough time for ozone to reach the various tissue parts of the body repeatedly with circulating blood. Ozone flows through Where, bacteria, fungi, or viruses in inflammatory tissues or infections are quickly destroyed; harmful blood lipids and cholesterol. Triglycerides, low-density lipoproteins, waste products from metabolism in the body, and toxicants secreted by bacterial viruses, all kinds of pain substances, it is difficult to escape the fate of being inactivated or oxidized by ozone. I believe that this is the root cause of why ozone can treat many diseases.
Oxygen (O2) is composed of two oxygen atoms, and ozone (Ozone, O3) is a gas composed of three oxygen atoms, which determines that ozone is a very unstable , Strong oxidant that is difficult to store, has the effect of killing bacterial viruses. The half-life of ozone in the air has a great relationship with the ambient temperature. The higher the temperature, the faster the decomposition of ozone, and the shorter the half-life. The half-life of ozone in the gas phase at room temperature ranges from 4 to 12 hours. Its half-life in water at room temperature is 20min, similar to its decomposition rate in human tissues. The reason why ozone can treat diseases is because ozone has a strong oxidizing effect, and can oxidize and clear pathological tissues such as protruding nucleus pulposus and inflammatory reactants; ozone stimulates the overexpression of oxidase and neutralizes the excessive production of inflammatory reactions. Reactive oxidation products that antagonize the release of immune factors in the inflammatory response, dilate blood vessels, improve reflux, reduce inflammatory edema; ozone directly affects nerve endings around the lesion, inhibiting its release of pain-producing substances such as substance P, phospholipid A2, etc., It can also stimulate the inhibitory intermediate neurons to release enkephalin and other substances to achieve analgesic effect; O2 in ozone can increase tissue oxygen supply, relieve hypoxic lesions, improve the body's immunity and disease resistance.
In recent years, ozone has been used more and more widely in clinical medicine, such as disc herniation, failed lumbar surgery syndrome, periarthritis, myofascial pain syndrome, arthritis, postherpetic neuralgia, and cancer pain , Refractory ulcers (such as diabetic foot), stroke, viral hepatitis, antioxidant free radicals and anti-aging, etc., its clinical efficacy has been fully affirmed.
Contraindications are: it is strictly prohibited to inhale ozone directly into the lungs because it can damage alveolar epithelial cells; ozone has the effect of activating metabolism in the body, and is therefore prohibited in patients with hyperthyroidism; it is prohibited in glucose-6-phosphate dehydrogenase deficiency, that is, broad beans Disease, because the patient's red blood cells lack the antioxidant protection system, contact with ozone will cause a large number of red blood cells to be destroyed. Ozone is neurotoxic and cannot be injected into the subarachnoid space. URL of this article: http://tjbg022.com/show.asp?id=78