Research & References
Clinically studied red and near-infrared light therapy supports recovery, reduces inflammation, and improves cellular production.
Rx3 Wellness is built around red light therapy protocols informed by peer-reviewed research in the field of photobiomodulation.
The studies below examine how specific wavelengths of red and near-infrared light interact with human tissue to support recovery, circulation, cellular energy production, and tissue health.
Rx3 does not make medical claims or promise outcomes. Instead, we focus on consistent, research-informed use for those seeking wellness and recovery support.
The Research Behind Red Light Therapy
Red and near-infrared light therapy has been widely studied in peer-reviewed research within the field of photobiomodulation. Published studies examine how specific wavelengths of light interact with human tissue to support recovery, circulation, cellular energy production, and overall tissue health.
Rx3 Wellness designs its protocols around commonly studied parameters, including wavelength, session duration, and frequency of use. Research consistently shows that outcomes are influenced not by one-off exposure, but by regular, repeated use over time.
Rather than chasing experimental or novelty protocols, Rx3 focuses on consistent, research-informed application aligned with how red light therapy is most often studied in clinical and performance settings.
The references below are provided for transparency and further reading. Rx3 Wellness does not make medical claims or promise specific outcomes. Our role is to support wellness, recovery, and longevity through responsible, evidence-informed use.
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Research suggests red and near-infrared light may support muscle recovery and performance by influencing mitochondrial function and local circulation.
References:
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Studies indicate photobiomodulation may help modulate inflammatory markers and support joint comfort when used consistently.
References:
3. Bjordal et al., Low-Level Laser Therapy for Inflammatory Conditions – The Lancet
4. Hamblin, Mechanisms and Applications of Photobiomodulation – AIMS Biophysics -
Red and near-infrared light has been shown to interact with cytochrome c oxidase, a key enzyme involved in cellular energy production.
References:
5. Hamblin & Demidova, Mechanisms of Low-Level Light Therapy – Proceedings of SPIE
6. Karu, Mitochondrial Mechanisms of Photobiomodulation – Photomedicine and Laser Surgery -
Photobiomodulation has been studied for its role in supporting skin integrity, collagen production, and tissue repair.
References:
7. Avci et al., Low-Level Laser Therapy in Skin Applications – Seminars in Cutaneous Medicine and Surgery
8. Barolet & Boucher, Prophylactic Low-Level Light Therapy for Skin Health – Journal of Cosmetic and Laser Therapy