What people use when they have cancer and want to get well with alternative treatment

UBIT or Ultraviolet Blood Irradiation

This therapy has many names: Ultraviolet Blood Irradiation, Photoluminescence, Hematologic Oxidative Therapy, etc., and was first introduced in the 1930’s to combat the polio virus.
The first person to experiment with this approach was K. Naswitis, who directly treated the blood with UV through a shunt in 1922. Beginning in 1923, Seattle scientist Emmet Knott, D.Sc., sought to harness in an extracorporeal way the known bactericidal property of ultraviolet rays in order to treat infectious diseases of the blood. Knott built an apparatus that would remove blood from the body through a tube, citrate it to avoid coagulation, expose it in a small chamber to calibrate UV, and then pump it through a tube back into the body.

The first treatment of a human occurred in 1928. The patient was a dying woman following a septic abortion complicated by hemolytic streptococcus septicemia. Treatment with UBT returned her to normal health. Indicative of the caution with which Knott and his medical collaborators worked, there was no further treatment of a human subject until 1933 when the device cured a patient with advanced hemolytic streptococcus septicemia. The UBT device then began to be used with some frequency on patients with severe septicemia and subsequently on patients with viral pneumonia.

By the 1940s several dozen physicians were regularly using Knott’s device according to the technique established by Knott. They treated bacterial infections, pneumonia, poliomyelitis, botulism, non-healing wounds, encephalitis, peritonitis, asthma, pelvic inflammatory disease, biliary disease, hepatitis, and many other infectious, inflammatory, and autoimmune disorders. Surgeons were particularly interested in the use of UBT pre- and post-operationally to treat infections, and The American Journal of Surgery ran many articles on UBT therapy.

The results of the treatment included: inactivation of toxins, destruction and inhibition of growth of bacteria, increase in the oxygen-combining power of the blood and oxygen transportation to organs, activation of steroid hormones, vasodilation, activation of white blood cells, stimulation of cellular and humoral immunity, stimulation of fibrinolysis, decreased viscosity of blood, improved microcirculation, stimulation of corticosteroid production, and decreased platelet aggregation.

In Germany practitioners persisted in using UBT. By the 1980s, UBT had become popular among East German and Russian physicians. In the 1990s, Russian physicians began to use low-intensity lasers to treat the blood through a fiber inserted into a vein with an IV needle (LBT). Now interest in BT has spread to the United States. The rise of multidrug resistance of strains of bacteria, concerns over the side effects of drugs, efforts to control costs, and the HIV epidemic has led medical researchers and physicians seek to combat infectious and autoimmune diseases with innovative approaches such as BT.

Mechanism of action:

Some researchers identified two possible modes:

- The UV treatment of the blood in the treatment chamber destroys or alters bacteria and viruses in the extracted blood in such a way as to create a kind of vaccination effect when they return to the body. This provokes a reaction by the immune system which in turn destroys most or all of the other bacteria or virus in the body; and the treatment of a small fraction (some 5 percent) of the blood then spreads throughout the entire volume of the blood upon returning to the body, and

- This induced secondary radiation (biophotons are emitted by the activated cells) destroys virus, bacteria, and–in autoimmune diseases–activated white blood cells.

The lack of detailed understanding of immunology at the peak in the use of BT therapy in the United States in the 1940s kept researchers from determining which of these two effects is more powerful, and in which applications. It also obscured a possible third pathway: that the treatment itself, though quite modest in level, has an impact on the autonomic nervous system (hence the frequent instances of flushing of the skin) and is perceived as a threat/stimulus by the entire immune system, which springs into action and thereby contributes to destroying bacteria or virus.

Ultraviolet Blood Irradiation Treatment After Surgery –

BOOKS:

William Douglass. Into the Light. Miami: Rhino Publishing, 2004

Kenneth J. Dillon. Healing Photons. Washington, D.C.: Scientia Press, 1998

Kenneth J. Dillon. Intriguing Anomalies. Washington, D.C.: Scientia Press, 2008

G. Frick. Fibel der Ultraviolettbestrahlung des Blutes. Greifswald: Ernst-Moritz-Arndt-Universität, 1989

I.E. Ganelina and K.A. Samoilova, eds. Mechanisms of the Influence of Blood Irradiated with Ultraviolet Rays on the Organisms of Humans and Animals [Russian]. Leningrad: Nauka, 1986

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