Hemealumen
Overview:
The polychromatic device (PCD) is comprised of multiple elements which are designed to work synergistically in the treatment of auto-immune, viral, bacterial, fungal, and terminal diseases with a minimally invasive photoluminescence blood treatment unit, specifically designed to safely expose a small portion (approx 5%) of a patient's blood through precisely controlled exposure to a full spectrum of light, including wavelengths know to increase immune response.
The PCD houses six independently controlled light sources, a treatment chamber with special TriVette cartridge holder, control switches, and cooling mechanisms.
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The Hemealumen utilizes multiple light sources including ehanced spectrum, high energy light sources, emitting wavelengths from 253.7 nm (UVC) to 670 nm (well into the visible light range). The device is equipped both a high power dual wavelength UVA light source, and a high output UVC source. Further photonic energy is generated from 360 high power LEDs, which emitted energy is in the visible spectrum. Research has shown that these wavelengths have specific, biological benefits.
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LED 1: (RED) DuaL wavelengths which support the outer valence of the primary enzymes such as S.O.D and catalase and the other elements of our primary nucleotides and promotes and increases mitochondrial energy via delivery of the activated blood throughout the body.
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LED 2: (AMBER) which supports production and release of NO. Findings indicate that low level amber light stimulates new nitric oxide synthesis from Cco/NO and does not merely release nitric oxide from preexisting tissue stores. Because the nitric oxide produced by Cco/NO can be used both inside cells, where it functions in hypoxic signaling, and outside of cells where it may function in vasodilation and other signaling pathways.
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LED 3: (GREEN) it is established that low level laser therapy when used on human blood in vitro, affects the rheology of erythrocytes and leucocytes, and it was observed that it changes the erytherocytatory, leucocytatory, BSR, and aggregability indices of blood.
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It was concluded that low level green light can affect the physical as well as chemical properties of blood cells, which is not only helpful in preservation of blood but also in revitalizing the physically and chemically stressed erytherocytatory membranes. It was determined that the light decreases the viscosity of blood thus increasing the electrophoretic mobility of erythrocytes.
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LED 4: (VIOLET) promotes vasodilation while reducing inflammation and improving blood flow, and delivering increased oxygen and nutrients to cells. Additionally, violet light has anti-pathogenic properties.
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