Assembly of cell-laden hydrogel fiber into non-liquefied and liquefied 3D spiral constructs by perfusion-based layer-by-layer technique

Biofabrication

Volumn 7, Issue 1, 2015, Pages

  Sher, Praveen ^a   Oliveira, Sara M ^a   Borges, João ^a   Mano, João F ^a  

^a UNIVERSITY OF MINHO   (Portugal)

Author keywords

cell encapsulation; chelation; hydrogel fiber; layer by layer; liquefied core; switching cell microenviroment; tissue engineering Supplementary material for this article is available online

Indexed keywords

CELLS; CHELATION; CYTOLOGY; FIBERS; GELATION; HYDROGELS; IONOTROPIC GELATION; MULTILAYERS; POLYELECTROLYTES; TISSUE; TISSUE ENGINEERING;

CELL ENCAPSULATIONS; HYDROGEL FIBERS; LAYER BY LAYER; LIQUEFIED CORE; SWITCHING CELLS;

CELL ENGINEERING;

HYDROGEL;

ANIMAL; CELL LINE; CELL SURVIVAL; DRUG EFFECTS; FLUORESCENCE IMAGING; HYDROGEL; MICROTECHNOLOGY; MOUSE; PHARMACOLOGY; PROCEDURES; THREE DIMENSIONAL IMAGING;

ANIMALS; CELL LINE; CELL SURVIVAL; HYDROGEL; IMAGING, THREE-DIMENSIONAL; MICE; MICROTECHNOLOGY; OPTICAL IMAGING;

EID: 84924296881     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5090/7/1/011001     Document Type: Article

References (36)

1. Leferink A, Schipper D, Arts E, Vrij E, Rivron N, Karperien M, Mittmann K, van Blitterswijk C, Moroni L and Truckenmüller R 2014 Engineered micro-objects as scaffolding elements in cellular building blocks for bottom-up tissue engineering Adv. Mater. 26 2592-9
2. Zorlutuna P, Vrana N E and Khademhosseini A 2013 The expanding world of tissue engineering: new building blocks and applications of tissue engineered constructs IEEE Rev. Biomed. Eng. 6 47-62
3. Villar G, Graham A D and Bayley H 2013 A tissue-like printed material Science 340 48-52
4. Eng G, Lee B W, Parsa H, Chin C D, Schneider J, Linkov G, Sia S K and Vunjak-Novakovic G 2013 Assembly of complex cell microenvironments using geometrically docked hydrogel shapes Proc. Natl. Acad. Sci. USA 110 4551-6
5. Schober A, Fernekorn U, Singh S, Schlingloff G, Gebinoga M, Hampl J and Williamson A 2013 Mimicking the biological world: methods for the 3D structuring of artificial cellular environments Eng. Life Sci. 13 352-67
6. Tseng P, Kunze A, Kittur H and Di Carlo D 2014 Research highlights: microtechnologies for engineering the cellular environment Lab. Chip. 14 1226-9
7. Yan J, Huang Y and Chrisey D B 2013 Laser-assisted printing of alginate long tubes and annular constructs Biofabrication 5 015002
8. Lee B R, Lee K H, Kang E, Kim D S and Lee S H 2011 Microfluidic wet spinning of chitosan-alginate microfibers and encapsulation of HepG2 cells in fibers Biomicrofluidics 5 022208
9. Su J, Zheng Y and Wu H 2009 Generation of alginate microfibers with a roller-assisted microfluidic system Lab. Chip. 9 996-1001
10. Onoe H et al 2013 Metre-long cell-laden microfibres exhibit tissue morphologies and functions Nat. Mater. 12 584-90
11. Kiriya D, Ikeda M, Onoe H, Takinoue M, Komatsu H, Shimoyama Y, Hamachi I and Takeuchi S 2012 Meter-long and robust supramolecular strands encapsulated in hydrogel jackets Angew. Chem. Int. Ed. 51 1553-7
12. Tamayol A, Akbari M, Annabi N, Paul A, Khademhosseini A and Juncker D 2013 Fiber-based tissue engineering: progress, challenges, and opportunities Biotechnol. Adv. 31 669-87
13. Jun Y, Kang E, Chae S and Lee S H 2014 Microfluidic spinning of micro- and nano-scale fibers for tissue engineering Lab. Chip. 14 2145-60
14. Zhang S et al 2014 Creating polymer hydrogel microfibres with internal alignment via electrical and mechanical stretching Biomaterials 35 3243-51
15. Shin S J, Park J Y, Lee J Y, Park H, Park Y D, Lee K B, Whang C M and Lee S H 2007 'On the fly' continuous generation of alginate fibers using a microfluidic device Langmuir 23 9104-8
16. Sugiura S, Oda T, Aoyagi Y, Satake M, Ohkohchi N and Nakajima M 2008 Tubular gel fabrication and cell encapsulation in laminar flow stream formed by microfabricated nozzle array Lab. Chip. 8 1255-7
17. Liberski A R, Delaney J T, Schäfer H, Perelaer J and Schubert U S 2011 Organ weaving: woven threads and sheets as a step towards a new strategy for artificial organ development Macromol. Biosci. 11 1491-8
18. Hu M, Deng R, Schumacher K M, Kurisawa M, Ye H, Purnamawati K and Ying J Y 2010 Hydrodynamic spinning of hydrogel fibers Biomaterials 31 863-9
19. Jakab K, Norotte C, Marga F, Murphy K, Vunjak-Novakovic G and Forgacs G 2010 Tissue engineering by self-assembly and bio-printing of living cells Biofabrication 2 022001
20. Bertassoni L E et al 2014 Direct-write bioprinting of cell-laden methacrylated gelatin hydrogels Biofabrication 6 024105
21. Murphy S V and Atala A 2014 3D bioprinting of tissues and organs Nat. Biotechnol. 32 773-85
22. Lin H, Zhang D, Alexander P G, Yang G, Tan J, Cheng A W M and Tuan R S 2013 Application of visible light-based projection stereolithography for live cell-scaffold fabrication with designed architecture Biomaterials 34 331-9
23. Van Tomme S R, Storm G and Hennink W E 2008 In situ gelling hydrogels for pharmaceutical and biomedical applications Int. J. Pharm. 355 1-18
24. Lenas P, Luyten F P, Doblare M, Nicodemou-Lena E and Lanzara A E 2011 Modularity in developmental biology and artificial organs: a missing concept in tissue engineering Artif. Organs 35 656-62
25. Dixon J E, Shah D A, Rogers C, Hall S, Weston N, Parmenter C D J, McNally D, Denning C and Shakesheff K M 2014 Combined hydrogels that switch human pluripotent stem cells from self-renewal to differentiation Proc. Natl. Acad. Sci. USA 111 5580-5
26. Augst A D, Kong H J and mooney D J 2006 Alginate hydrogels as biomaterials Macromol. Biosci. 6 623-33
27. Lee B B, Ravindra P and Chan E S 2013 Size and shape of calcium alginate beads produced by extrusion dripping Chem. Eng. Technol. 36 1627-42
28. Orive G et al 2003 Cell encapsulation: promise and progress Nat. Med. 9 104-7
29. Sher P, Custódio C A and Mano J F 2010 Layer-by-layer technique for producing porous nanostructured 3D constructs using moldable freeform assembly of spherical templates Small 6 2644-8
30. Sher P and Mano J F 2012 Multilayers as 3D nanostructured porous constructs Bioinspired, Biomim. Nanobiomaterials 1 245-51
31. Silva J M, Georgi N, Costa R, Sher P, Reis R L, Van Blitterswijk C A, Karperien M and Mano J F 2013 Nanostructured 3D constructs based on chitosan and chondroitin sulphate multilayers for cartilage tissue engineering PLoS ONE 8 e55451
32. Costa N L, Sher P and Mano J F 2011 Liquefied capsules coated with multilayered polyelectrolyte films for cell immobilization Adv. Eng. Mater. 13 B218-24
33. Correia C R, Reis R L and Mano J F 2013 Multilayered hierarchical capsules providing cell adhesion sites Biomacromolecules 14 743-51
34. Correia C R, Sher P, Reis R L and Mano J F 2013 Liquified chitosan-alginate multilayer capsules incorporating poly(L-lactic acid) microparticles as cell carriers Soft Matter 9 2125-30
35. Costa R R and Mano J F 2014 Polyelectrolyte multilayered assemblies in biomedical technologies Chem. Soc. Rev. 43 3453-79
36. Borges J and Mano J F 2014 Molecular interactions driving the layer-by-layer assembly of multilayers Chem. Rev. 114 8883-942