The world’s first synthetic organ transplant is taking on the role of scientific achievement by which all others are measured. Sort of like, ‘if we can land on the moon, why can’t we make a [fill in the blank] that works.’
It is a remarkable achievement and is in part made possible by a nanocomposite developed at University College London (UCL) that serves as a scaffold that allows the stem cells to build upon it.
The lead surgeon in the procedure heaped praise upon the synthetic organ’s nanotechnology underpinnings.
"Thanks to nanotechnology, this new branch of regenerative medicine, we are now able to produce a custom-made windpipe within two days or one week,” says Professor Paolo Macchiarini in a separate BBC article covering the procedure.
We don’t know too much about the specifics of the nanomaterial used in the scaffolding, except that it’s being called a “novel nanocomposite polymer” and was developed by Professor Alexander Seifalian at UCL Division of Surgery & Interventional Science.