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Spec Sheets
for various colors
Spec sheet download Click
Here for red 660
Spec sheet download Click Here for
infrared 850
Spec Sheet Download Click Here
for 590nm Yellow
Spec Sheet Download Click Here
for 470nm Blue
Spec Sheet Download Click Here
for 410nm UV
Spec Sheet Download Click here for
830nm Infrared
Spec Sheet Download Click Here for
850nm Infrared
Spec Sheet Download Click Here for
940nm Infrared
Some
Background Information
“Low-energy photon irradiation by light in the far-red to near-IR
spectral range with low-energy lasers or LED arrays has been found to
modulate various biological processes in cell culture and animal models.
This phenomenon of photobiomodulation has been applied clinically in the
treatment of soft tissue injuries and the acceleration of wound healing.
The mechanism of photobiomodulation by red to near-IR light at the
cellular level has been ascribed to the activation of mitochondrial
respiratory chain components, resulting in initiation of a signaling
cascade that promotes cellular proliferation and cytoprotection.”
“A growing body of evidence suggests that cytochrome oxidase is a key
photoacceptor of light in the far-red to near-IR spectral range." Dr.
Harry Whelan (NASA)
"Cytochrome oxidase is an integral membrane protein that contains
four redox active metal centers and has a strong absorbance in the far-red
to near-IR spectral range detectable in vivo by near-IR spectroscopy.”
“Moreover, 660–680 nm of irradiation has been shown to increase
electron transfer in purified cytochrome oxidase, increase mitochondrial
respiration and ATP synthesis in isolated mitochondria, and up-regulate
cytochrome oxidase activity in cultured neuronal cells.”
“LED photostimulation induces a cascade of signaling events initiated by
the initial absorption of light by cytochrome oxidase. These signaling
events may include the activation of immediate early genes, transcription
factors, cytochrome oxidase subunit gene expression, and a host of other
enzymes and pathways related to increased oxidative metabolism.”
“In addition to increased oxidative metabolism, red to near-IR light
stimulation of mitochondrial electron transfer is known to increase the
generation of reactive oxygen species. These mitochondrially generated
reactive oxygen species may function as signaling molecules to provide
communication between mitochondria and the cytosol and nucleus.”
DISCLAIMER AND IMPORTANT NOTE OF CAUTION:
The
statements in this document represent opinions of the authors and others
and may not have enough scientific validation to warrant drawing any
conclusions as to medical or scientific efficacy. If you decide to
purchase any of these experimental techniques, you do so at your own risk.
Many bona fide health care providers use and recommend experimental
modalities, and you should also check with your doctor before you change
or make additions to your treatment regime.
We present this information in the spirit of free expression and believe
that you have the right to learn about a wide spectrum of ideas and
potential alternative options that are affordable. Please use common sense
when evaluating alternative health products and concepts.
We have had good results with the products we sell and feel comfortable
recommending them. We have received numerous positive testimonials from
satisfied users of our products. Occasionally a user decides that our
product might not have met their expectations and we allow returns within
a reasonable time frame.
We do not intend that you use our products as medical devices. Never use
them as a substitute for any therapy or treatment prescribed by a
physician or other health professional. As with any experimental
technique, the user must exercise common sense and pay attention to the
body's feedback. No one can predict the effects, either positive or
negative, which use of this technology may yield.
All statements represent opinions, some based on scientific
experimentation and others on anecdotal experiences. No one can predict
with complete confidence what to expect from the use of new, experimental
technology.
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