Researchers at University of Illinois Chicago are advancing 3D bio-printing by utilizing a gel to eliminate scaffold structures that model the shape of the organ or tissue being printed. The previous standard for 3D bio-printing involved creating a scaffold, typically from a biological polymer, and seeding it with stem cells that eventually differentiate and populate the structure to create the desired tissue. The challenge this technique poses is that the scaffold structure needs to be perfectly matched to the stem cells so that the scaffold degrades as the stem cells grow and differentiate into the desired structure. This new technique of 3D bio-printing by depositing the cells directly into a gel solves the problem of mismatched timing and should expedite and facilitate the printing of larger and more complex organs.
With recent advances making strides toward improving 3D bio-printing, this technique is just one of the many improvements researchers are developing to scale up the production of full sized organs and tissues. 3D bio-printing with stem cells are on the cusp of revolutionizing medicine by enabling the development of replacement body parts and organs and creating personalized medical treatment by using the patient’s own stem cells.
This innovative research demonstrates the integral role stem cells are playing in cutting edge medical care options. By banking their own valuable stem cells, families can ensure that they will have access to these emerging therapies in the near future. To learn more about banking stem cells, please visit StemSave or call 877-783- 6728 (877-StemSave) today.
The Future of Regenerative Medicine is Now™
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