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oemBiology oemBiology
wrote...
Posts: 1245
Rep: 22 1
8 years ago
Referring to following linked image, I would like to know on how different LED affects on body's cells.

Blue LED for Antiseptic, Acne treatment
Red LED for Inflammation, Cell regeneration
Infrared Red LED for Pain relief, Reduction of body fat.

Does anyone have any suggestions?
Thanks in advance for any suggestions




http://www.espansionegroupusa.com/technologies/ya-vs-other-technologies/
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wrote...
#1
Educator
8 years ago
You're asking about the mechanism of action of light theory. Check out this article, entitled the "The Nuts and Bolts of Low-level Laser (Light) Therapy". I think it has some value information. Slight Smile

According to WikiPedia, in the article entitled Low level laser therapy, it states:

It is unclear how Low level laser therapy (LLLT) works. LLLT may reduce pain related to inflammation by lowering, in a dose-dependent manner, levels of prostaglandin E2, prostaglandin-endoperoxide synthase 2, interleukin 1-beta, tumor necrosis factor-alpha, the cellular influx of neutrophil granulocytes, oxidative stress, edema, and bleeding. The appropriate dose appears to be between 0.3 and 19 joules per square centimetre. Another mechanism may be related to stimulation of mitochondrion to increase the production of adenosine triphosphate resulting in an increase in reactive oxygen species, which influences redox signalling, affecting intracellular homeostasis or the proliferation of cells. The final enzyme in the production of ATP by the mitochondria, cytochrome c oxidase, does appear to accept energy from laser-level lights, making it a possible candidate for mediating the properties of laser therapy.

The effects of LLLT appear to be limited to a specified set of wavelengths of laser, and though more research is required to determine the ideal wavelengths, durations of treatment, dose and location of treatment (specifically whether LLLT is more appropriately used over nerves versus joints). Administering LLLT below the dose range does not appear to be effective. The factors of wavelength, effective dose, dose-rate effects, beam penetration, the role of coherence, and pulses (peak power and repetition rates) are still poorly understood in the clinical setting. The typical laser average power is in the range of 1-500 mW; some high-peak-power, short-pulse-width devices are in the range of 1-100 W with typical pulse-widths of 200 ns. The typical average beam irradiance then is 10 mW/cm2 - 5 W/cm2. The typical wavelength is in the range 600-1000 nm (red to near infrared), but some research has been done and products outside of this range are available.
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