How It Works

The Process of How Light Energizes Your Cells

Discover how red and near-infrared light stimulate cellular energy, boost collagen, and reduce inflammation for healthier skin.
Red and near-infrared light are absorbed by cytochrome c oxidase (CCO), a key mitochondrial protein that powers cellular energy production.
When CCO absorbs light, it boosts ATP production, fueling the electron transport chain to convert oxygen and nutrients into energy.
More ATP activates cellular signals that enhance collagen production, reduce inflammation, and promote overall healthier skin.

How Does Red Light Treat Aging?

As we age, collagen and elastin break down resulting in a loss of volume in our skin - our skin becomes more wrinkled, loose, thin, crepey and unevenly textured. Years of exposure to UV rays causes unwanted pigmentation and sun spots, which only accelerate the aging process on our face, neck and chest and hands.
Optimized energy output and two clinically proven wavelengths of red and near-infrared light work together on a cellular level to penetrate the deeper layers of skin, stimulating fibroblast cells and targeting exacerbated collagen to restore elasticity, reduce fine lines and wrinkles and correct pigmentation from sun damage.
The red wavelength (630nm) reduces inflammation, pigmentation, and redness and helps prompt cellular repair and circulation for a more vibrant complexion. The near-infrared wavelength (850nm) targets deeper fibroblast cells, stimulating new collagen and elastin production, resulting in plumper, firmer, more youthful looking skin.