Synthesizing the most natural of all skin creams

March 17, 2009
Scientist working on the DUBBLE Beamline. Credit: Artechnique

Even after nine months soaking in the womb, a newborn's skin is smooth - unlike an adult's in the bath. While occupying a watery, warm environment, the newborn manages to develop a skin fully equipped to protect it in a cold, dry and bacteria-infected world.

A protective cream called Vernix caseosa (VC), which covers the fetus and the newborn, aids in the growth of both before and after birth. VC provides 'waterproofing' in utero, allowing skin to grow in wet conditions, while after birth it hydrates and cleanses, even healing when applied to ulcers.

Prof. Joke Bouwstra, a specialist in the skin barrier and its synthesis at Leiden University, Netherlands, and her colleague Robert Rißmann set out to study VC in detail and has produced a of this natural buttery ointment which shows the same structure and unique properties. As well as helping pre-term babies develop essential protection against temperature changes, dehydration and infection, artificial VC could also benefit sufferers of skin disease.

Like most moisturising creams, VC is mostly water. Its outstanding properties come from the addition of just 10% each of lipid molecules and dead (corneocytes), so the exact composition of the mixture is important.

For the lipids, X-ray diffraction measurements at the Dutch/Flemish DUBBLE beamline at the ESRF () allowed the Leiden researchers to find the proportions of the various forms in the cream, even distinguishing between complex molecules differing in chain length.

The corneocytes were also studied using , yielding their size, shape and water content.

But equally important is how the mixture arranges itself. Lipid molecules are shaped something like lollipops, with a round end that prefers to be surrounded by water and a stick which prefers to make a raft with other lollipop sticks. VC contains several different lengths of lipids, which form different arrangements as the temperature changes. The result is that VC fulfils different functions inside and outside the womb, just as butter behaves differently in the oven and on the table. Again, the ESRF's synchrotron light was used to illuminate the corneocytes and lipids together and look for any clumps or other ordering. Once they knew exactly what VC was made of and how it was arranged, they set about creating a synthetic version.

A readily available natural source of the sort of fat molecules needed is lanolin, the oil found in sheep's wool, which is currently used as a skin treatment by some nursing mothers. The team isolated the fats which were the closest match to the measurements they had of VC, and used them to create a synthetic solution with the same behaviour. The corneocytes were synthesized by M.H.M. Oudshoorn from the Utrecht University. When combined, these synthetic ingredients made a cream which looked the same using both x-ray measurements and light microscopy as VC, while allowing the researchers to alter the water content and other properties at will.

After pre-clinical testing, the developed creams showed great potential for use on disrupted and underdeveloped skin: the skin barrier recovered much more quickly when synthetic VC was applied. These promising results will give rise to future clinical studies, in order to prove the benefits of the newly developed creams in treating healthy, dry and diseased human skin.

Source: European Synchrotron Radiation Facility

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