Sunscreens Remain Safe, Effective Form of Sun Protection

The American Academy of Dermatology (Academy) today reiterated the safety and effectiveness of sunscreens to protect against the damaging effects from exposure to ultraviolet (UV) radiation. As one component of a daily sun-protection strategy, sunscreen is an important tool in the fight against skin cancer, including melanoma, the deadliest form of skin cancer.

Unprotected sun exposure is the most preventable risk factor for skin cancer. More than 3.5 million new cases of skin cancer will be diagnosed in the United States this year, affecting 2 million people. At current rates, one in five Americans will develop skin cancer in his or her lifetime. Approximately 75 percent of skin cancer deaths are from melanoma, and the incidence of melanoma has been rising for at least 30 years.

“Scientific evidence supports the benefits of sunscreen usage to minimize short- and long-term damage to the skin from UV radiation and outweighs any unproven claims of toxicity or human health hazard,” said Daniel M. Siegel, MD, FAAD, president of the Academy.

“To reduce the risk of skin cancer and premature aging, dermatologists continue to recommend generously applying a water-resistant, broad-spectrum sunscreen – that protects against both types of ultraviolet radiation (UVA and UVB) – with an SPF 30 or higher, in conjunction with other sun-safe practices such as limiting sun exposure, seeking shade, and wearing sun-protective clothing, hats and sunglasses.”

Sunscreen products contain one or more active drug ingredients - compounds that absorb, scatter or reflect UV light - and are regulated as over-the-counter (OTC) drugs by the U.S. Food and Drug Administration (FDA). The FDA has several safety and effectiveness regulations in place that govern the manufacture and marketing of all sunscreen products, including safety data on its ingredients. However, recent media reports have questioned the health risks of some sunscreen ingredients, specifically oxybenzone and retinyl palmitate, as well as the use of nanotechnology in sunscreen.

Oxybenzone provides effective broad-spectrum protection
Oxybenzone is one of the few FDA-approved ingredients that provides effective broad-spectrum protection from UV radiation, and has been approved for use since 1978. “Available peer-reviewed scientific literature and regulatory assessments from national and international bodies do not support a link between oxybenzone in sunscreen and hormonal alterations, or other significant health issues in humans,” stated Dr. Siegel. “The FDA has approved oxybenzone in sunscreen for use on children older than six months, and dermatologists continue to encourage protecting children by playing in the shade, wearing protective clothing and applying broad-spectrum sunscreen.”

Retinyl palmitate helps protect against aging
Retinyl palmitate, is a form of vitamin A (retinol), but is not an active drug ingredient in sunscreen. When used in sunscreen, retinyl palmitate serves cosmetic purposes as an antioxidant to improve product performance against the aging effects of UV exposure, or to enhance product aesthetic qualities. Despite recent concerns from in vitro (test tube) studies and one unpublished report using mice, “topical and oral retinoids are widely prescribed to treat a number of skin diseases, such as acne and psoriasis, and there is no published evidence to suggest either increase the risk of skin cancer in these patients,” said Dr. Siegel. “In fact, oral retinoids are used to prevent skin cancers in high-risk patients such as those who have undergone organ transplantation.” Dr. Siegel also added that “unlike more potent prescription forms of vitamin A, there is no evidence to suggest that use of sunscreen with retinyl palmitate poses comparable risks.”

Nanotechnology enhances broad-spectrum protection
The broad-spectrum sunscreen active ingredients titanium dioxide and zinc oxide leave a white residue on the skin following application when used in a larger particle form. However, when these active ingredients are converted into nanoparticles – smaller, lighter molecules – they appear to vanish on the skin, do not leave a residue, and retain and enhance their ability to block UVA and UVB light.

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