Short and sweet: During a red light therapy treatment, our mitochondria absorbs red and near-infrared light and converts it into energy.
Once red light energy has been absorbed by the body, it is then used by the cells to build new proteins such as collagen and elastin, and to boost cellular regeneration. Red light gives cells a helping hand, ensuring mitochondria reaches its FULL potential by providing it with a full – rather than a half full – tank of fuel which results in OPTIMAL performance for the organism. You could compare this process to photosynthesis, where plants absorb sunlight and convert it into complex molecules. We’re using energy absorption of red and near-infrared light to enhance our cellular potential, promote oxygen use within the cells and most importantly generate ATP as fuel.
All of this has been scientifically proven. We believe biohacking should be based on broad scientific groundwork. That is why all our communication, user guides, products and experiences are 100% based on science and recent studies. Not only are we experts in what we do, but we use backed knowledge to give you the right tools. Improving the performance of mitochondria in the body improves the body’s overall performance and wellness.
Have a look at our research database to find the topics might be interested in:
wdt_ID
Category
Subcategory
Year
Title
λ nm
Φ mW
t sec
Results
Link
1
Adipose tissue
Inflammation
2016
Photobiomodulation reduces abdominal adipose tissue inflammatory infiltrate of diet-induced obese and hyperglycemic mice.
843
60
300
"Non-irradiated control animals display inflammatory areas almost five times greater than the treated group (p < 0.001). This result on inflammatory infiltrate may have caused impacts on the significant lower blood glucose level from irradiated animals (p
Effect of low-level laser therapy on abdominal adipocytes before lipoplasty procedures.
635
10 (?)
720
"Recently, low-level laser therapy was reported to "liquefy" or release stored fat in adipocytes by the opening of specialized yet not identified cell membrane-associated pores after a brief treatment." "No histologic tissue changes or specifically in ad
Low-level laser-assisted liposculpture: clinical report of 700 cases.
635
"Excellent aesthetic results, including an improved silhouette contour, smooth abdominal surface, and good skin retraction, were obtained in 95% of cases. Postoperative recovery was rapid, and complications were minimal."
Fat liquefaction: effect of low-level laser energy on adipose tissue.
635
10
(120) 240 360
"The low-level laser energy affected the adipose cell by causing a transitory pore in the cell membrane to open, which permitted the fat content to go from inside to outside the cell. The cells in the interstitial space and the capillaries remained intact
Action of low-level laser therapy on living fatty tissue of rats.
670
9
31 62 124 248
"Low-level laser rays cause brown adipose fat droplets to coalesce and fuse. Additionally, they stimulated proliferation and congestion of capillaries in the extracellular matrix." Comment: Parameters were poorly reported: spot area (cm2) and radiant ene
Use of low-energy laser as adjunct treatment of alcohol addiction.
514
100 + 25
50 (5p) 300
"Improvement in BDI-FS and increase in, beta-endorphin level were observed. These results suggest that laser therapy can be useful as an adjunct treatment for alcoholism."
Effect of low-energy laser power on the bone marrow of the rat.
633
5
"These indicated that AsGa laser light induced a decrease in bone marrow mastocytes and peripheral blood basophils with an increase in the number of eosinophils. An increase in mitotic activity in the bone marrow was observed in the exposed groups of anim
Influence of low-level laser irradiation on osteocalcin protein and gene expression in bone tissue1.
808
200
5 /p
"Immunocytochemistry scores showed no significant differences between control and laser groups either in vivo and in vitro. Gene expression also showed no statistical differences." "Low-level laser irradiation did not alter osteocalcin protein and gene e
Low-level laser therapy stimulates bone metabolism and inhibits root resorption during tooth movement in a rodent model.
810
100
15 /p
"Taken together, our results indicate that LLLT can stimulate bone remodeling reducing root resorption in a rat model. LLLT improves tooth movement via bone formation and bone resorption in a rat model."
