Engineering extracellular matrix structure in 3D multiphase tissues

Biomaterials

Volumn 32, Issue 32, 2011, Pages 8067-8076

  Gillette, Brian M ^a   Rossen, Ninna S ^a   Das, Nikkan ^a   Leong, Debra ^a   Wang, Meixin ^a   Dugar, Arushi ^a   Sia, Samuel K ^a  

^a Department of Biomedical Engineering Columbia University ^*  (United States)

Author keywords

Adhesion; Alginate; Collagen; Hydrogel; Interface; Micropatterning

Indexed keywords

CELLULAR BEHAVIORS; COLLAGEN CONCENTRATION; COLLAGEN FIBER; COLLAGEN FIBER STRUCTURE; COLLAGEN STRUCTURE; EXTRACELLULAR MATRICES; FLOW ALIGNMENTS; GELLING TEMPERATURE; LOCAL VARIATIONS; MESH SIZE; MICRO PATTERNING; MICRO-SCALE VARIATION; MICROENVIRONMENTS; TISSUE BONDING; TISSUE INTERFACE; TISSUE SCAFFOLDS;

ADHESION; BEHAVIORAL RESEARCH; COLLAGEN; ENGINEERS; FIBERS; HISTOLOGY; PHASE INTERFACES; THREE DIMENSIONAL; TISSUE;

SCAFFOLDS (BIOLOGY);

ALGINIC ACID; COLLAGEN FIBER; GELLING AGENT; TISSUE SCAFFOLD;

ARTICLE; CELL DENSITY; CHEMICAL BOND; CONTROLLED STUDY; ELECTROSPINNING; EXTRACELLULAR MATRIX; GELATION; HYDROGEL; MICROFLUIDICS; MICROPATTERN; MULTIPHASE TISSUE; PATTERN STIMULATION; PHASE TRANSITION; PRIORITY JOURNAL; PROTEIN ASSEMBLY; SHEAR STRENGTH; SURFACE PROPERTY; TEMPERATURE SENSITIVITY; THICKNESS; THREE DIMENSIONAL IMAGING; TISSUE ADHESION; TISSUE ENGINEERING; TISSUE GROWTH; TISSUE INTERFACE; TISSUE STRUCTURE;

ADHESIVENESS; ANIMALS; EXTRACELLULAR MATRIX; FIBRILLAR COLLAGENS; HYDROGELS; MICROFLUIDICS; RATS; TISSUE ENGINEERING;

EID: 81155160131     PISSN: 01429612     EISSN: 18785905     Source Type: Journal    
DOI: 10.1016/j.biomaterials.2011.05.043     Document Type: Article

References (38)

1. Lu H.H., Subramony S.D., Boushell M.K., Zhang X. Tissue engineering strategies for the regeneration of orthopedic interfaces. Ann Biomed Eng 2010, 38:2142-2154.
2. Mikos A.G., Herring S.W., Ochareon P., Elisseeff J., Lu H.H., Kandel R., et al. Engineering complex tissues. Tissue Eng 2006, 12:3307-3339.
3. Sharma B., Williams C.G., Kim T.K., Sun D., Malik A., Khan M., et al. Designing zonal organization into tissue-engineered cartilage. Tissue Eng 2007, 13:405-414.
4. Spalazzi J.P., Dagher E., Doty S.B., Guo X.E., Rodeo S.A., Lu H.H. In vivo evaluation of a multiphased scaffold designed for orthopaedic interface tissue engineering and soft tissue-to-bone integration. J Biomed Mater Res A 2008, 86:1-12.
5. Beadle C., Assanah M.C., Monzo P., Vallee R., Rosenfeld S.S., Canoll P. The role of myosin II in glioma invasion of the brain. Mol Biol Cell 2008, 19:3357-3368.
6. Yang Y.L., Motte S., Kaufman L.J. Pore size variable type I collagen gels and their interaction with glioma cells. Biomaterials 2010, 31:5678-5688.
7. Miron-Mendoza M., Seemann J., Grinnell F. The differential regulation of cell motile activity through matrix stiffness and porosity in three dimensional collagen matrices. Biomaterials 2010, 31:6425-6435.
8. Gillette BM, Perez N, Varghese P, Sia SK. Collagen: a natural nanobiomaterial for high-resolution studies in tissue engineering. In: Sitharaman B, editor. Nanobiomaterials handbook. New York: CRC Press, 2011. p 25-1--25-11.
9. Chrobak K.M., Potter D.R., Tien J. Formation of perfused, functional microvascular tubes in vitro. Microvasc Res 2006, 71:185-196.
10. Lee P., Lin R., Moon J., Lee L.P. Microfluidic alignment of collagen fibers for in vitro cell culture. Biomed Microdevices 2006, 8:35-41.
11. Sung K.E., Su G., Pehlke C., Trier S.M., Eliceiri K.W., Keely P.J., et al. Control of 3-dimensional collagen matrix polymerization for reproducible human mammary fibroblast cell culture in microfluidic devices. Biomaterials 2009, 30:4833-4841.
12. Guo C., Kaufman L.J. Flow and magnetic field induced collagen alignment. Biomaterials 2007, 28:1105-1114.
13. Dong B., Arnoult O., Smith M.E., Wnek G.E. Electrospinning of collagen nanofiber scaffolds from benign solvents. Macromol Rapid Commun 2009, 30:539-542.
14. Roeder B.A., Kokini K., Voytik-Harbin S.L. Fibril microstructure affects strain transmission within collagen extracellular matrices. J Biomech Eng 2009, 131(031004).
15. Tan W., Desai T.A. Microscale multilayer cocultures for biomimetic blood vessels. J Biomed Mater Res A 2005, 72:146-160.
16. Baker B.M., Nathan A.S., Gee A.O., Mauck R.L. The influence of an aligned nanofibrous topography on human mesenchymal stem cell fibrochondrogenesis. Biomaterials 2010, 31:6190-6200.
17. Du Y., Lo E., Ali S., Khademhosseini A. Directed assembly of cell-laden microgels for fabrication of 3D tissue constructs. Proc Natl Acad Sci U S A 2008, 105:9522-9527.
18. Albrecht D.R., Underhill G.H., Mendelson A., Bhatia S.N. Multiphase electropatterning of cells and biomaterials. Lab Chip 2007, 7:702-709.
19. Cheung Y.K., Azeloglu E.U., Shiovitz D.A., Costa K.D., Seliktar D., Sia S.K. Microscale control of stiffness in a cell-adhesive substrate using microfluidics-based lithography. Angew Chem Int Edit 2009, 48:7188-7192.
20. Gillette B.M., Jensen J.A., Tang B., Yang G.J., Bazargan-Lari A., Zhong M., et al. In situ collagen assembly for integrating microfabricated three-dimensional cell-seeded matrices. Nat Mater 2008, 7:636-640.
21. Cabodi M., Choi N.W., Gleghorn J.P., Lee C.S., Bonassar L.J., Stroock A.D. A microfluidic biomaterial. J Am Chem Soc 2005, 127:13788-13789.
22. Brightman A.O., Rajwa B.P., Sturgis J.E., McCallister M.E., Robinson J.P., Voytik-Harbin S.L. Time-lapse confocal reflection microscopy of collagen fibrillogenesis and extracellular matrix assembly in vitro. Biopolymers 2000, 54:222-234.
23. Yang Y.-l., Kaufman L.J. Rheology and confocal reflectance microscopy as probes of mechanical properties and structure during collagen and collagen/hyaluronan self-assembly. Biophys J 2009, 96:1566-1585.
24. Marenzana M., Kelly D.J., Prendergast P.J., Brown R.A. A collagen-based interface construct for the assessment of cell-dependent mechanical integration of tissue surfaces. Cell Tissue Res 2007, 327:293-300.
25. Hadjipanayi E., Brown R.A., Mudera V. Interface integration of layered collagen scaffolds with defined matrix stiffness: implications for sheet-based tissue engineering. J Tissue Eng Regen Med 2009, 3:230-241.
26. Yang Y.L., Leone L.M., Kaufman L.J. Elastic moduli of collagen gels can be predicted from two-dimensional confocal microscopy. Biophys J 2009, 97:2051-2060.
27. Kull S., Martinelli I., Briganti E., Losi P., Spiller D., Tonlorenzi S., et al. Glubran2 surgical glue: in vitro evaluation of adhesive and mechanical properties. J Surg Res 2009, 157:e15-21.
28. Mahdavi A., Ferreira L., Sundback C., Nichol J.W., Chan E.P., Carter D.J., et al. A biodegradable and biocompatible gecko-inspired tissue adhesive. Proc Natl Acad Sci U S A 2008, 105:2307-2312.
29. Silver F.H., Wang M.C., Pins G.D. Preparation of fibrin glue: a study of chemical and physical methods. J Appl Biomater 1995, 6:175-183.
30. Burke S.A., Ritter-Jones M., Lee B.P., Messersmith P.B. Thermal gelation and tissue adhesion of biomimetic hydrogels. Biomed Mater 2007, 2:203-210.
31. Buchta C., Hedrich H.C., Macher M., Höcker P., Redl H. Biochemical characterization of autologous fibrin sealants produced by CryoSeal® and Vivostat® in comparison to the homologous fibrin sealant product Tissucol/Tisseel®. Biomaterials 2005, 26:6233-6241.
32. Gillette B.M., Jensen J.A., Wang M., Tchao J., Sia S.K. Dynamic hydrogels: switching of 3D microenvironments using two-component naturally derived extracellular matrices. Adv Mater 2009, 22:686-691.
33. Kadler K.E., Hill A., Canty-Laird E.G. Collagen fibrillogenesis: fibronectin, integrins, and minor collagens as organizers and nucleators. Curr Opin Cell Biol 2008, 20:495-501.
34. McCullen S.D., Miller P.R., Gittard S.D., Gorga R.E., Pourdeyhimi B., Narayan R.J., et al. In situ collagen polymerization of layered cell-seeded electrospun scaffolds for bone tissue engineering applications. Tissue Eng Part C Methods 2010, 16:1095-1105.
35. Mauck R.L., Baker B.M., Nerurkar N.L., Burdick J.A., Li W.J., Tuan R.S., et al. Engineering on the straight and narrow: the mechanics of nanofibrous assemblies for fiber-reinforced tissue regeneration. Tissue Eng Part B Rev 2009, 15:171-193.
36. Nerurkar N.L., Han W., Mauck R.L., Elliott D.M. Homologous structure-function relationships between native fibrocartilage and tissue engineered from MSC-seeded nanofibrous scaffolds. Biomaterials 2011, 32:461-468.
37. Sieminski A.L., Hebbel R.P., Gooch K.J. The relative magnitudes of endothelial force generation and matrix stiffness modulate capillary morphogenesis in vitro. Exp Cell Res 2004, 297:574-584.
38. Provenzano P.P., Eliceiri K.W., Campbell J.M., Inman D.R., White J.G., Keely P.J. Collagen reorganization at the tumor-stromal interface facilitates local invasion. BMC Med 2006, 4:38.