Professor Miroslav Radman: A Pioneer in Genetics & Aging Science
A geneticist, molecular biologist and groundbreaking researcher, Professor Miroslav Radman has revolutionized the field of aging science. As the founder of MedILS (Mediterranean Institute for Life Sciences), he spearheaded developments in DNA repair and human health, including prolific work on age-related pathologies such as Alzheimer’s, Parkinson’s and Charcot disease.
Inspired by extremophile bacteria and their ability to withstand harsh, damaging conditions, Professor Radman uncovered the proteome’s essential role in resisting antioxidant stress and, consequently, in aging.
Protecting the proteome is key to both cell repair and to preventing skin aging. Cell longevity does not depend on the integrity of a cell’s DNA, but on its proteome’s resilience.
As an internationally acclaimed biologist, his research has been celebrated in over 200 publications in scientific journals around the world.
Converging Minds and a Passion for Skin Health
As Founder and CEO of NAOS (Bioderma – Institut Esthederm – Etat Pur), pharmacist and biologist Jean-Noël Thorel has shared Professor Radman’s vision of skin health and aging for over fifteen years. Committed to the idea that skin is a living interface between inner and outer worlds, he believes that its health is the result of a delicate biological balance between external and internal cellular environments. His beliefs led NAOS to make unprecedented developments in ecobiology and biomimicry, reproducing strategies found in nature to better preserve the skin’s ecosystem and resilience.
Combining 40 years of research and development with Professor Radman’s groundbreaking discoveries, NAOS Aging Science’s collaboration with MedILS has resulted in an exceptional scientific partnership, now culminating in extraordinary new ways to combat and slow the signs of skin aging while developing one of the most innovative biotechnologies in terms of cell longevity.
Naos’s Breakthrough Discovery
Inspired by Professor Radman’s unprecedented work, NAOS scientific research teams were able to identify a quasi-immortal bacterium, the snow bacterium, whose proteome is naturally protected by unique molecules: antioxidant chaperones. They provide the skin’s proteome with powerful, lasting protection, capable of considerably slowing down the skin aging process.
Powerfully Proven, Remarkable Results
Proteins are at the heart of all life functions. Protecting and restoring the proteome is vital to prevent all aspects of skin aging: collagen and elastin breakdown, loss of density, firmness and elasticity. Consisting of powerful antioxidant chaperone molecules that work to preserve and protect the skin’s proteome, Age Proteom™ patented biotechnology mimics the skin’s natural defense systems to slow the aging process, and preserve cell longevity.
Age Proteom™ patented biotechnology creates a genuine shield that preserves structural and functional proteins in the skin. This unique protection against irreversible protein damage is proven to be superior to that of reference antioxidants, such as ascorbic acid. In addition to guarding against free-radical damage, Age Proteom™ patented biotechnology significantly promotes self-repair of DNA lesions after UV stress, as well as protecting against cellular damage caused by common environmental factors such as blue light and fine particle pollution.
Age Proteom™ patented biotechnology is a scientific revolution, a gamechanger in how we address skin aging, and will transform the way we approach our skin and skin health.