Much has been talked about devices that use LED lights to improve skin conditions like acne, psoriasis, and aging signs. Many types of equipment that use this technology are available in the market, but a product stands out for its exceptional features every once in a while. This is the case of the Dermalux Flex MD, which uses light energy at different wavelengths to improve skin health. But these aren’t standard cosmetic LEDs found on more simple devices.
These ceramic lights differentiate themselves by being extra precise and potent; with photon power that delivers fast & significant results. These colorful lights have the following effects separately:
- The red light (at 633 nm) is used to prompt rejuvenation in the skin (more collagen, better hydration, less inflammation).
- The blue light (at 415 nm) has the power to denature the bacteria that provoke acne.
- The near-infrared light (at 830nm) reduces inflammation at a deep level. It also promotes a sense of relaxation and stimulates bone renewal.
This LED Light Therapy device is mainly used in clinics but is certified for home use. Furthermore, it is three times more potent than any other portable LED device and is medically approved for the treatment of a wide range of face and body (it can be used from head to toe!) conditions, including acne, wound healing, psoriasis, and muscular and joint pain. A session lasts up to 30 minutes, and it is non-invasive. There is also no risk of injury or downtime afterward, and all skin tones and types can also use it.
In conclusion, the Dermalux Flex MD really has special features that make it a success. According to the manufacturer, it is engineered for maximum power with less heat to ensure safe, consistent performance and reproducible outcomes with every treatment.
Read Also: Why LED Is the Key To Great Skin
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About the Author: MSci Maísa Melo is a Pharmacist and a current PhD student in cosmetic technology, from São Paulo, Brazil. She has earned her master’s degree from the University of São Paulo and has been involved with the development, stability, safety and efficacy of cosmetics since 2013. She has specialized in the clinical efficacy of cosmetics by biophysical and skin imaging techniques as well as the use of alternative models to animal testing. Her research work has been published in several scientific journals and book chapters from the field.