3D Printed Organs - Coming soon to a hospital near you

[Eddie]

I found this very interesting. Imagine how advanced medicine will be, simply because of 3D printing.

Read the entire article at: http://www.foxnews.com/health/2013/0...ans-on-demand/

Dying patients could someday receive a 3D-printed organ made from their own cells rather than wait on long lists for the short supply of organ transplants. Such a futuristic dream remains far from reality, but university labs and private companies have already taken the first careful steps by using 3D-printing technology to build tiny chunks of organs.
Regenerative medicine has already implanted lab-grown skin, tracheas and bladders into patients body parts grown slowly through a combination of artificial scaffolds and living human cells. By comparison, 3D-printing technology offers both greater speed and computer-guided precision in printing living cells layer by layer to make replacement skin, body parts and perhaps eventually organs such as hearts, livers and kidneys.
"Bioprinting organs for human uses won't happen anytime soon," said Tony Atala, director of the Wake Forest Institute for Regenerative Medicine in Winston-Salem, N.C. "But for tissues we've already implanted in patients structures we've made by hand we're now going back to those tissues and saying 'We know we can do better with 3D printing.'" [7 Cool Uses of 3D Printing in Medicine]
From skin to hearts
The difficulty of building organs with 3D printing falls into about four levels of complexity, Atala said. Flat structures with mostly one type of cell, such as human skin, represent the easiest organs to make. Second, tubular structures with two major cell types, such as blood vessels, pose a greater challenge.
A third level of complexity arises in hollow organs such as the stomach or bladder, each with more complicated functions and interactions with other organs. Finally, the fourth level of complexity includes organs such as the heart, liver and kidneys the ultimate goal for bioprinting pioneers.
"With bioprinting, we're approaching it the same way we did with other organs," Atala said. "We're going after flat structures first like skin, tubular structures like blood vessels next, and then hollow, nontubular organs like bladders."
Regenerative medicine has already proven it can implant lab-grown versions of the first three types of organs into patients. Atala and other researchers hope that 3D printing's efficiency can scale up the manufacturing of such organs for widespread use, as well as help make hearts, livers and kidneys suitable for implanting in patients.
How to print an organ
Atala's group previously built lab-grown organs by creating artificial scaffolds in the shape of the desired organ and seeding the scaffold with living cells. They used the technique to grow artificial bladdersfirst implanted in patients in 1999, but spent the last decade building3D printers that can print both an artificial scaffold and living cells at the same time a process that involves liquid "glue," which hardens into the consistency of gummy candy as it dries out.
Other labs think they can bypass the artificial scaffolds by harnessing living cells' tendencies to self-organize. That avoids the challenge of choosing scaffold material that can eventually dissolve without affecting the living cells, but leaves the initial structure of living cells in a delicate position without the supporting scaffold.
"If you do what we do with putting cells in the right place, you don't start with anything structural to hold things up," said Keith Murphy, chairman and CEO of Organovo, a startup San Diego-based company. "For us, the challenge is the strength and integrity of the structure."
Organovo scientists have experimented with building tiny slices of livers by first creating "building blocks" with the necessary cells. The company's 3D printers can then situate the building blocks in layers that allow the living cells to start growing together.
Stem cells taken from a patient's fat or bone marrow can provide the 3D-printing material for making an organ that the body won't reject, Murphy said. His company worked with Stuart Williams, executive and scientific director of the Cardiovascular Innovation Institute in Louisville, Ky., on extracting the stem cells from fat.

[Lindros_bigE]

Very incredible. I wonder how long it will be before they start printing our organs. Could be a life saver. Imagine getting a new heart printed, or even arteries. Have a blockage somewhere, just have a brand new artery printed. Have an organ that is affect by cancer? Have it taken out and replaced by a newly printed one.

[Bobby Lin]

That article is pretty fascinating! I like how it explains the obstacles of 3D printing organs. Although 3D bioprinting is definitely possible for the future, it is definitely not going to be accessible any time soon. We just have to rely on our engineers and scientists to figure out how to overcome the challenges of harnessing this new technology.

You may like this article, also: https://mylocal3dprinting.com/blog/3...hs-vs-reality/. It goes into the myths and realities of 3D printing.

Thanks for the info!

[Sebastian Finke]

Cloning is hot on the heels.