The Body Printed: How 3-D Printing Could Change the Face of Modern Medicine?And Why That Future Is Still So Far Away

Author

Fischer, Shannon

Volume

4

Issue

6

fYear

2013

fDate

Nov. 2013

Firstpage

27

Lastpage

31

Abstract

It takes only a few minutes for the NovoGen MMX to print out a chunk of human liver cells. It´s a small chunk, only 4-mm wide and 20 cell layers thick, which wouldn´t do much good in a human patient. But at a cellular level, this tiny swatch of machine-made flesh has all the essential ingredients of an original organ: tight hexagons of hepatocytes and fatty stellate cells and endothelial cells gathered into nascent capillaries. It produces cholesterol, albumin, and detoxifying P450 enzymes. After it is printed, the ensemble can survive for almost an entire week-nearly triple the endurance of classic two-dimensional (2-D) liver cultures.

Keywords

cellular biophysics; enzymes; liver; molecular biophysics; albumin; cholesterol; detoxifying P450 enzymes; endothelial cells; fatty stellate cells; hepatocytes; human liver cells; human patient; machine-made flesh; nascent capillaries; two-dimensional liver cultures; Biomedical imaging; Printing; Three dimensional displays; Animals; Bioprinting; Biotechnology; Humans; Mice; Tissue Engineering;

fLanguage

English

Journal_Title

Pulse, IEEE

Publisher

ieee

ISSN

2154-2287

Type

jour

DOI

10.1109/MPUL.2013.2279618

Filename

6656993