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Literature DB >> 23959206

3D printed PLA-based scaffolds: a versatile tool in regenerative medicine.

Tiziano Serra¹, Miguel A Mateos-Timoneda¹, Josep A Planell², Melba Navarro¹.

Abstract

Rapid prototyping (RP), also known as additive manufacturing (AM), has been well received and adopted in the biomedical field. The capacity of this family of techniques to fabricate customized 3D structures with complex geometries and excellent reproducibility has revolutionized implantology and regenerative medicine. In particular, nozzle-based systems allow the fabrication of high-resolution polylactic acid (PLA) structures that are of interest in regenerative medicine. These 3D structures find interesting applications in the regenerative medicine field where promising applications including biodegradable templates for tissue regeneration purposes, 3D in vitro platforms for studying cell response to different scaffolds conditions and for drug screening are considered among others. Scaffolds functionality depends not only on the fabrication technique, but also on the material used to build the 3D structure, the geometry and inner architecture of the structure, and the final surface properties. All being crucial parameters affecting scaffolds success. This Commentary emphasizes the importance of these parameters in scaffolds' fabrication and also draws the attention toward the versatility of these PLA scaffolds as a potential tool in regenerative medicine and other medical fields.

Entities: Chemical

Keywords: 3D in vitro culture system; biodegradable; calcium phosphate glass; composite material; drug screening; polylactic acid (PLA); rapid prototyping; regenerative medicine; scaffolds; tissue engineering

Mesh：

Substances：

Year: 2013 PMID： 23959206 PMCID： PMC3903692 DOI： 10.4161/org.26048

Source DB: PubMed Journal: Organogenesis ISSN： 1547-6278 Impact factor: 2.500

24 in total

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Authors: Yasuo Miyagi; Loraine L Y Chiu; Massimo Cimini; Richard D Weisel; Milica Radisic; Ren-Ke Li
Journal: Biomaterials Date: 2010-10-29 Impact factor: 12.479

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Journal: Nat Mater Date: 2005-07 Impact factor: 43.841

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Authors: Dietmar Werner Hutmacher; Jan Thorsten Schantz; Christopher Xu Fu Lam; Kim Cheng Tan; Thiam Chye Lim
Journal: J Tissue Eng Regen Med Date: 2007 Jul-Aug Impact factor: 3.963

4. The control of human mesenchymal cell differentiation using nanoscale symmetry and disorder.

Authors: Matthew J Dalby; Nikolaj Gadegaard; Rahul Tare; Abhay Andar; Mathis O Riehle; Pawel Herzyk; Chris D W Wilkinson; Richard O C Oreffo
Journal: Nat Mater Date: 2007-09-23 Impact factor: 43.841

5. A poly(D,L-lactide) resin for the preparation of tissue engineering scaffolds by stereolithography.

Authors: Ferry P W Melchels; Jan Feijen; Dirk W Grijpma
Journal: Biomaterials Date: 2009-04-29 Impact factor: 12.479

6. Geometric cues for directing the differentiation of mesenchymal stem cells.

Authors: Kristopher A Kilian; Branimir Bugarija; Bruce T Lahn; Milan Mrksich
Journal: Proc Natl Acad Sci U S A Date: 2010-03-01 Impact factor: 11.205

7. In vitro degradation behavior of a novel bioresorbable composite material based on PLA and a soluble CaP glass.

Authors: M Navarro; M P Ginebra; J A Planell; C C Barrias; M A Barbosa
Journal: Acta Biomater Date: 2005-07 Impact factor: 8.947

8. Surface characterization and cell response of a PLA/CaP glass biodegradable composite material.

Authors: M Navarro; E Engel; J A Planell; I Amaral; M Barbosa; M P Ginebra
Journal: J Biomed Mater Res A Date: 2008-05 Impact factor: 4.396

9. A PLA/calcium phosphate degradable composite material for bone tissue engineering: an in vitro study.

Authors: Montse Charles-Harris; Martin A Koch; Melba Navarro; Damien Lacroix; Elisabeth Engel; Josep A Planell
Journal: J Mater Sci Mater Med Date: 2008-02-12 Impact factor: 3.896

10. Adhesion formation of primary human osteoblasts and the functional response of mesenchymal stem cells to 330nm deep microgrooves.

Authors: M J P Biggs; R G Richards; S McFarlane; C D W Wilkinson; R O C Oreffo; M J Dalby
Journal: J R Soc Interface Date: 2008-10-06 Impact factor: 4.118

20 in total

Review 1. Applied Bioengineering in Tissue Reconstruction, Replacement, and Regeneration.

Authors: Juan M Colazo; Brian C Evans; Angel F Farinas; Salam Al-Kassis; Craig L Duvall; Wesley P Thayer
Journal: Tissue Eng Part B Rev Date: 2019-08 Impact factor: 6.389

2. Layer-by-layer bioassembly of cellularized polylactic acid porous membranes for bone tissue engineering.

Authors: Vera Guduric; Carole Metz; Robin Siadous; Reine Bareille; Riccardo Levato; Elisabeth Engel; Jean-Christophe Fricain; Raphaël Devillard; Ognjan Luzanin; Sylvain Catros
Journal: J Mater Sci Mater Med Date: 2017-04-06 Impact factor: 3.896

Review 3. Tuning the biomimetic behavior of scaffolds for regenerative medicine through surface modifications.

Authors: Nathan R Richbourg; Nicholas A Peppas; Vassilios I Sikavitsas
Journal: J Tissue Eng Regen Med Date: 2019-06-25 Impact factor: 3.963

Review 4. Three-dimensional Printing and 3D Slicer: Powerful Tools in Understanding and Treating Structural Lung Disease.

Authors: George Z Cheng; Raul San Jose Estepar; Erik Folch; Jorge Onieva; Sidhu Gangadharan; Adnan Majid
Journal: Chest Date: 2016-03-12 Impact factor: 9.410