The idea sounds like fantasy: an invisible film that can be painted on your skin and give it the elasticity of youth. Bags under the eyes vanish in seconds. Wrinkles disappear.
Scientists at Harvard and MIT have discovered that it is not fantasy at all. Reporting on Monday in the journal Nature Materials on pilot studies with 170 subjects, the researchers said a "second skin" composed of commonly used chemicals deemed safe by the Food and Drug Administration can accomplish that - and in small studies of it, so far no one has reported irritation or allergic reactions.
Undereye bags are just the start. You can soak the film with sunscreen and protect yourself without worrying about sweat or water washing it away, researchers said. They expect it can be used to treat eczema, psoriasis and other skin conditions by covering dry itchy patches with a film that moistens and soothes.
The chemicals are siloxanes - their basic form is one atom of oxygen linked to two atoms of silicon - which form polymers, long chains of repeating units. The researchers made a large collection of them by modifying molecular features such as the chain length to get the ones with the properties they wanted.
Then they devised a two-step process. First, a polymer, a clear liquid, is applied. Its chains are not very strong, though, so the next step is applying a product that links them together. By modifying the chemistry of the chains, the researchers can alter the properties of the second skin, depending on how it will be used, making it more or less permeable, for example. A more permeable second skin might be used for undereye bags while a less permeable one might hold a medication in place. It can be removed with a solution that dissolves the polymer.
The research was funded by a small, privately owned biotechnology company in Cambridge, Mass, Living Proof, and the product is being developed by another small, privately owned Cambridge company, Olivo Laboratories, which owns the patents. All of the authors on the new paper have an equity interest in Living Proof and so, indirectly, in Olivo.
The report published on Monday describes pilot studies, the first test of the product. The researchers say they are not sure yet when they will have enough data to submit to the Food and Drug Administration for marketing approval - they will know more later this year.
"I think it is brilliant," said Gordana Vunjak-Novakovic, professor of biomedical engineering at Columbia, who was not involved in the research. "What they have done is design a clever biomaterial that recapitulates the properties of young and healthy skin. They can use it as sort of a Band-Aid over old and aging skin and get very significant results."
Murad Alam, a professor of dermatology at Northwestern University, who also was not associated with the study, was impressed, too, but he cautioned that it was still early.
"This is a first step," he said, "and all these applications will require further work." But, he added, if the testing is successful, "I think it will be very popular."
The idea for second skin originated more than a decade ago when R Rox Anderson, a professor of dermatology at Harvard Medical School, was approached by Living Proof, which had been working on a polymer to be used as a hair product. Since dermatologists also know about hair, the company consulted him. Why, Anderson asked the company executives, couldn't there be a polymer to put on skin? "A lot of what happens when we age and skin starts wrinkling and sagging is loss of elastic recoil," he said. "When we move skin, it doesn't snap back to what it used to be."
What if there was a way to restore the elastic nature of skin?
Anderson listed what would be needed: "It has to be nearly invisible. The skin still has to be able to breathe through this stuff. And it needs to be strong enough and elastic enough that it actually affects the recoil of the skin."
That, he said, "is the challenge I put to them".
Robert Langer, a biomedical engineer who is a professor at MIT and a scientific founder of Living Proof, started searching for something that would work. "We made literally hundreds of polymers," he said. "We were looking for safety, spreadability, adherence, and the right kind of mechanical and optical properties."
The "skin" can last for more than a day.
Scientists at Harvard and MIT have discovered that it is not fantasy at all. Reporting on Monday in the journal Nature Materials on pilot studies with 170 subjects, the researchers said a "second skin" composed of commonly used chemicals deemed safe by the Food and Drug Administration can accomplish that - and in small studies of it, so far no one has reported irritation or allergic reactions.
Undereye bags are just the start. You can soak the film with sunscreen and protect yourself without worrying about sweat or water washing it away, researchers said. They expect it can be used to treat eczema, psoriasis and other skin conditions by covering dry itchy patches with a film that moistens and soothes.
The chemicals are siloxanes - their basic form is one atom of oxygen linked to two atoms of silicon - which form polymers, long chains of repeating units. The researchers made a large collection of them by modifying molecular features such as the chain length to get the ones with the properties they wanted.
Then they devised a two-step process. First, a polymer, a clear liquid, is applied. Its chains are not very strong, though, so the next step is applying a product that links them together. By modifying the chemistry of the chains, the researchers can alter the properties of the second skin, depending on how it will be used, making it more or less permeable, for example. A more permeable second skin might be used for undereye bags while a less permeable one might hold a medication in place. It can be removed with a solution that dissolves the polymer.
The research was funded by a small, privately owned biotechnology company in Cambridge, Mass, Living Proof, and the product is being developed by another small, privately owned Cambridge company, Olivo Laboratories, which owns the patents. All of the authors on the new paper have an equity interest in Living Proof and so, indirectly, in Olivo.
The report published on Monday describes pilot studies, the first test of the product. The researchers say they are not sure yet when they will have enough data to submit to the Food and Drug Administration for marketing approval - they will know more later this year.
"I think it is brilliant," said Gordana Vunjak-Novakovic, professor of biomedical engineering at Columbia, who was not involved in the research. "What they have done is design a clever biomaterial that recapitulates the properties of young and healthy skin. They can use it as sort of a Band-Aid over old and aging skin and get very significant results."
Murad Alam, a professor of dermatology at Northwestern University, who also was not associated with the study, was impressed, too, but he cautioned that it was still early.
"This is a first step," he said, "and all these applications will require further work." But, he added, if the testing is successful, "I think it will be very popular."
The idea for second skin originated more than a decade ago when R Rox Anderson, a professor of dermatology at Harvard Medical School, was approached by Living Proof, which had been working on a polymer to be used as a hair product. Since dermatologists also know about hair, the company consulted him. Why, Anderson asked the company executives, couldn't there be a polymer to put on skin? "A lot of what happens when we age and skin starts wrinkling and sagging is loss of elastic recoil," he said. "When we move skin, it doesn't snap back to what it used to be."
What if there was a way to restore the elastic nature of skin?
Anderson listed what would be needed: "It has to be nearly invisible. The skin still has to be able to breathe through this stuff. And it needs to be strong enough and elastic enough that it actually affects the recoil of the skin."
That, he said, "is the challenge I put to them".
Robert Langer, a biomedical engineer who is a professor at MIT and a scientific founder of Living Proof, started searching for something that would work. "We made literally hundreds of polymers," he said. "We were looking for safety, spreadability, adherence, and the right kind of mechanical and optical properties."
The "skin" can last for more than a day.
©2016 The New York Times