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3D Printed Artificial Corneas May Work in Place of Eye Donations

Scientists design a 3D printed artificial corneas that mimic the human eye, reducing the need for eye donations.

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Scientists have designed a 3D printed artificial corneas that mimic the human eye using the bioink made of stem cells - an advance that may help reduce the need for eye donations.

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When a person has a severely damaged cornea, a corneal transplant is required. However, patients often have to wait for years to receive eye donations.

Many scientists have put their efforts in developing an artificial cornea. The existing artificial cornea uses recombinant collagen or is made of chemical substances such as synthetic polymer.

Therefore, it does not incorporate well with the eye or is not transparent after the cornea implant.

Researchers at the Pohang University of Science and Technology and Kyungpook National University in South Korea 3D printed an artificial cornea using the bioink which is made of decellularised corneal stroma and stem cells.

The cornea is made of corneal tissue-derived bioink, according to the research published on Biofabrication.

It is biocompatible, and 3D cell printing technology recapitulates the corneal microenvironment, therefore, its transparency is similar to the human cornea.

The cornea is a thin outermost layer that covers the pupil and it protects the eye from the external environment. It is the first layer that admits light and therefore it needs to be transparent, move as the pupil moves, and have flexibility.

However, it has been limited to develop an artificial cornea using synthetic biocompatible materials because of different cornea-related properties.

In addition, although many researchers have tried to repeat the corneal microenvironment to be transparent, the materials used in existing studies have limited microstructures to penetrate the light.

The human cornea is organised in a lattice pattern of collagen fibrils. The lattice pattern in the cornea is directly associated with the transparency of cornea, and many researches have tried to replicate the human cornea.

However, there was a limitation in applying to corneal transplantation due to the use of cytotoxic substances in the body, their insufficient corneal features including low transparency, and so on.

To solve this problem, the research team used shear stress generated in the 3D printing to manufacture the corneal lattice pattern and demonstrated that the cornea by using a corneal stroma-derived decellularised extracellular matrix bioink was biocompatible.

In the 3D printing process, when ink in the printer comes out through a nozzle and passes through the nozzle, frictional force which then produces shear stress occurs.

The team successfully produced transparent artificial cornea with the lattice pattern of human cornea by regulating the shear stress to control the pattern of collagen fibrils.

They also observed that the collagen fibrils remodelled along with the printing path create a lattice pattern similar to the structure of native human cornea after 4 weeks in vivo.

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