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Cell and organ printing turns 15: Diverse research to commercial transitions

Published online by Cambridge University Press:  14 October 2013

Bradley R. Ringeisen ,
Russell K. Pirlo ,
Peter K. Wu ,
Thomas Boland ,
Yong Huang ,
Wei Sun ,
Qudus Hamid  and
Douglas B. Chrisey
Bradley R. Ringeisen
Affiliation:
US Naval Research Laboratory; ringeisen@nrl.navy.mil.
Russell K. Pirlo
Affiliation:
US Naval Research Laboratory; russell.pirlo@nrl.navy.mil
Peter K. Wu
Affiliation:
Southern Oregon University; wu@sou.edu
Thomas Boland
Affiliation:
University of Texas at El Paso; tboland@utep.edu
Yong Huang
Affiliation:
University of Florida, Gainesville; yongh@ufl.edu
Wei Sun
Affiliation:
Drexel University; sunwei@drexel.edu
Qudus Hamid
Affiliation:
Drexel University; qh25@drexel.edu
Douglas B. Chrisey
Affiliation:
Tulane University; douglasbchrisey@gmail.com
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Abstract

Fifteen years ago, the field of cell and organ printing began with a few research groups looking to take newly developed direct-write tools and apply them to living cells. Initial experiments demonstrated cell viability and functionality post-deposition. Recently, research has begun in earnest to create three-dimensional cellular constructs that mimic both the heterogeneous structure and function of natural tissue. Several companies are now marketing cell printers, expanding access to a wider group of scientists and accelerating the pace of development. This article describes the past decade and a half of research by showing examples of some of the most sophisticated work, comparing the approaches and tools used in the field, and predicting the products that will arrive in the not too distant future.

Keywords

laserink-jet printingextrusionbiomaterialcellular (material type)
Type
Technical Feature
Information
MRS Bulletin , Volume 38 , Issue 10: Materials issues for quantum computation , October 2013 , pp. 834 - 843
Copyright
Copyright © Materials Research Society 2013 

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