Skin care research: The polyhydroxy acid gluconolactone protects against ultraviolet radiation in an in vitro model of cutaneous photoaging.

Intelligent anti-aging skin care based on independent research

Lose wrinkles, keep your bank account!

Skin Care 101

Skin Care Basics

Skin Protection

Skin Biology

Biology of Aging

Ingredient Guide

Skin & Nutrition

Skin Conditions

Anti-Aging Treatments

Topical Actives

Wrinkle Fillers

Noninvasive

Invasive

Skin Care Smarts

Smart Choices

Best Practices

Find Good Skin Doc

Quick Tips

Freebie Finder

Reviews & Research

Product Reviews

Provider Reviews

Skin Care Research

Clinical Trials

How-To Infopacks

Skin Rejuvenation

DIY Skin Care

Skin & Nutrition

Eye Skin Care

Longevity In a Pill

Community & Misc

Forums

Polls & Surveys

News and Updates

Search

-- advertisements --

You are here: Skin Care Research >

The polyhydroxy acid gluconolactone protects against ultraviolet radiation in an in vitro model of cutaneous photoaging.

Author: Bernstein EF, Brown DB, Schwartz MD, Kaidbey K, Ksenzenko SM

Author affiliation: DakDak Photoaging Technologies, Division of Charles River Laboratories, Inc., Pennsylvania College of Optometry, Elkins Park KGL Inc., Ivy Laboratories University City Science Center, Philadelphia, Pennsylvania, USA.

Publication date & source: 2004.02, Dermatol Surg., 30(2 Pt 1):189-95

BACKGROUND: Ultraviolet (UV) radiation damages skin through a variety of mechanisms, including the generation of free radicals. Gluconolactone is a polyhydroxy acid (PHA) that is capable of chelating metals and may also function by scavenging free radicals, thereby protecting skin from some of the damaging effects of UV radiation. OBJECTIVE: This study measured the ability of gluconolactone to protect against UV radiation-induced damage. METHODS: The ability of gluconolactone to prevent UV radiation-induced elastin promoter activation was determined in vitro using a transgenic model of cutaneous photoaging. Gluconolactone was also evaluated to determine its ability to promote the formation of sunburn cells in human skin after exposure to UV radiation. RESULTS: Gluconolactone provided up to 50% protection against UV radiation, as measured in our in vitro system, and did not significantly increase sunburn cells in human skin. CONCLUSIONS: These results demonstrate the ability of the PHA gluconolactone to protect against UV radiation-induced elastin promoter activation. In addition, in vivo studies demonstrated that gluconolactone treatment does not result in a significant increase in sunburn cells. Further investigation of this and other PHAs is necessary to identify their potential role in preventing and repairing cutaneous photodamage.

Indexes of Skin Care Research Abstracts
by Subject Category	Most Recent

-- advertisements --