Photobiomodulation: How Red Light Therapy Works
A clear, evidence-based guide to photobiomodulation: how red and near-infrared light interact with skin cells to support collagen, repair, and a healthier glow.
How photobiomodulation works
Photobiomodulation (PBM) describes the absorption of specific visible-red and near-infrared wavelengths by chromophores in skin cell mitochondria. The mechanism is associated with increased ATP production, modulated reactive oxygen species, and downstream fibroblast activity that supports collagen synthesis.
Wavelengths
The Lumi Mask uses 630nm visible red light to support surface radiance and 850nm near-infrared to reach deeper layers of the dermis. These wavelengths are the most widely studied in cosmetic photobiomodulation research.
Citations
- Wunsch & Matuschka (2014) — Photomedicine and Laser Surgery
- Avci et al. (2013) — Low-level laser therapy for skin
- Barolet et al. (2009) — Journal of Drugs in Dermatology
How to interpret red light therapy evidence
Most studies differ in wavelength mix, treatment schedule, follow-up window, and baseline skin condition. The strongest way to evaluate claims is to compare protocol details: wavelength, irradiance, session duration, and frequency. For at-home users, consistency usually matters more than intensity spikes. Cosmetic outcomes are gradual and should be measured across 8-12 week windows rather than day-to-day changes.
Practical protocol for Australian users
- Start with 3 sessions per week for the first 2 weeks, then move to 4-5 sessions if tolerated.
- Prioritise evening use and maintain daytime SPF due to high Australian UV exposure.
- Document baseline skin texture and tone before beginning.
- Pause and seek clinical advice if skin becomes persistently reactive.