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Researchers create artificial human ear
RESEARCHERS have engineered artificial human ears that look and act like the real thing thanks to 3D printing, giving hope to patients missing all or part of their ears.
The new ears, practically identical to human ones, could provide the solution long sought by reconstructive surgeons to treat thousands of children born with the congenital deformity microtia, along with those who suffered ear loss to cancer or in an accident.
In a study published online in the PLOS ONE journal, Cornell biomedical engineers and Weill Cornell Medical College physicians said the flexible ears grew cartilage over three months to replace the collagen used to mold them.
"This is such a win-win for both medicine and basic science, demonstrating what we can achieve when we work together," said co-lead author Lawrence Bonassar, associate professor of biomedical engineering at Cornell.
Bonassar and his colleagues first constructed the ears with a digitized 3D image of a person's ear that served to build a mold of a solid ear using a 3D printer.
A high-density, injectable gel made of living cells helped fill the mold. Once the mold removed, cartilage was grown on the collagen.
Researchers praised the speed of the process. It takes half a day to build the mold, about a day to print it, 30 minutes to inject the gel and the ear can be removed just 15 minutes later.
"We trim the ear and then let it culture for several days in nourishing cell culture media before it is implanted," Bonassar said in a statement.
Microtia, when the external ear is not fully developed, occurs in one to four per 10,000 births each year in the US.
Children born with the deformity often have an intact inner ear, but lose hearing due to the missing external structure.
Weill Cornell associate professor Jason Spector noted that physicians could reduce the chances of rejection by using human cells from the same patient to build the ear.
The new ears, practically identical to human ones, could provide the solution long sought by reconstructive surgeons to treat thousands of children born with the congenital deformity microtia, along with those who suffered ear loss to cancer or in an accident.
In a study published online in the PLOS ONE journal, Cornell biomedical engineers and Weill Cornell Medical College physicians said the flexible ears grew cartilage over three months to replace the collagen used to mold them.
"This is such a win-win for both medicine and basic science, demonstrating what we can achieve when we work together," said co-lead author Lawrence Bonassar, associate professor of biomedical engineering at Cornell.
Bonassar and his colleagues first constructed the ears with a digitized 3D image of a person's ear that served to build a mold of a solid ear using a 3D printer.
A high-density, injectable gel made of living cells helped fill the mold. Once the mold removed, cartilage was grown on the collagen.
Researchers praised the speed of the process. It takes half a day to build the mold, about a day to print it, 30 minutes to inject the gel and the ear can be removed just 15 minutes later.
"We trim the ear and then let it culture for several days in nourishing cell culture media before it is implanted," Bonassar said in a statement.
Microtia, when the external ear is not fully developed, occurs in one to four per 10,000 births each year in the US.
Children born with the deformity often have an intact inner ear, but lose hearing due to the missing external structure.
Weill Cornell associate professor Jason Spector noted that physicians could reduce the chances of rejection by using human cells from the same patient to build the ear.
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