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Laser-assisted bioprinting to deal with tissue complexity in regenerative medicine

Published online by Cambridge University Press:  14 December 2011

Fabien Guillemot
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; fabien.guillemot@inserm.fr
Bertrand Guillotin
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; bertrand.guillotin@inserm.fr
Aurélien Fontaine
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; aurelien.fontaine974@gmail.com
Muhammad Ali
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; amuhammadali@gmail.com
Sylvain Catros
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; sylvaincatros@hotmail.com
Virginie Kériquel
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; virginie.keriquel@orange.fr
Jean-Christophe Fricain
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; jfricain@u_bordeaux2.fr
Murielle Rémy
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; murielle.remy@u_bordeaux2.fr
Reine Bareille
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; reine.bareille@inserm.fr
Joëlle Amédée-Vilamitjana
Affiliation:
Bioingénierie Tissulaire, Inserm, Université Bordeaux Segalen, France; joelle.amedee@inserm.fr
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Abstract

Laser-assisted bioprinting is one among several technologies that are being developed in the recent and growing field of bioprinting. Bioprinting is defined as the use of computer-aided transfer processes for patterning and assembling living and non-living materials with a prescribed 2D or 3D organization in order to produce bio-engineered structures serving in regenerative medicine, pharmacology, and basic cell biology studies. We describe the physical parameters that need to be tuned for laser-assisted bioprinting of materials and cells, with high throughput and controlled printing resolution. We present its applications for printing cells and tissue-relevant biomaterials, both in vitro and in vivo. Finally, we discuss how this technique may help in reproducing the local cell micro-environment and dealing with tissue complexity and heterogeneity for fabricating functional tissue-engineered 3D constructs.

Type
Research Article
Copyright
Copyright © Materials Research Society 2011

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