Fabrication of cell patches using biodegradable scaffolds with a hexagonal array of interconnected pores (SHAIPs)

Polymer

Volumn 55, Issue 1, 2014, Pages 445-452

  Zhang, Yu Shrike ^a   Yao, Junjie ^b   Wang, Lihong V ^b   Xia, Younan ^a  

^a Emory University   (United States)

^b WASHINGTON UNIVERSITY IN ST LOUIS   (United States)

Author keywords

Photoacoustic microscopy; Porous scaffolds; Regenerative medicine

Indexed keywords

CELLS; CYTOLOGY; FABRICATION; PHOTOACOUSTIC MICROSCOPY; REGENERATIVE MEDICINE;

BIODEGRADABLE SCAFFOLD; BIOMACROMOLECULES; HEXAGONAL ARRAYS; HEXAGONAL PATTERN; INTERCONNECTED PORES; POLY(D , L-LACTIC-CO-GLYCOLIC ACID); POROUS SCAFFOLD; PROOF OF CONCEPT;

SCAFFOLDS (BIOLOGY);

EID: 84891824795     PISSN: 00323861     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.polymer.2013.06.019     Document Type: Article

References (53)

1. M. Yamato, and T. Okano Cell sheet engineering Mater Today 7 2004 42 47
2. J. Yang, M. Yamato, C. Kohno, A. Nishimoto, H. Sekine, and F. Fukai et al. Cell sheet engineering: recreating tissues without biodegradable scaffolds Biomaterials 26 2005 6415 6422
3. J. Yang, M. Yamato, K. Nishida, T. Ohki, M. Kanzaki, and H. Sekine et al. Cell delivery in regenerative medicine: the cell sheet engineering approach J Control Release 116 2006 193 203
4. J. Yang, M. Yamato, T. Shimizu, H. Sekine, K. Ohashi, and M. Kanzaki et al. Reconstruction of functional tissues with cell sheet engineering Biomaterials 28 2007 5033 5043
5. B.C. Isenberg, Y. Tsuda, C. Williams, T. Shimizu, M. Yamato, and T. Okano et al. A thermoresponsive, microtextured substrate for cell sheet engineering with defined structural organization Biomaterials 29 2008 2565 2572
6. Y. Haraguchi, T. Shimizu, T. Sasagawa, H. Sekine, K. Sakaguchi, and T. Kikuchi et al. Fabrication of functional three-dimensional tissues by stacking cell sheets in vitro Nat Protoc 7 2012 850 858
7. K. Nishida, M. Yamato, Y. Hayashida, K. Watanabe, K. Yamamoto, and E. Adachi et al. Corneal reconstruction with tissue-engineered cell sheets composed of autologous oral mucosal epithelium N Engl J Med 351 2004 1187 1196
8. T. Shimizu, M. Yamato, Y. Isoi, T. Akutsu, T. Setomaru, and K. Abe et al. Fabrication of pulsatile cardiac tissue grafts using a novel 3-dimensional cell sheet manipulation technique and temperature-responsive cell culture surfaces Circ Res 90 2002 e40 e48
9. T. Shimizu, M. Yamato, A. Kikuchi, and T. Okano Cell sheet engineering for myocardial tissue reconstruction Biomaterials 24 2003 2309 2316
10. Y. Miyahara, N. Nagaya, M. Kataoka, B. Yanagawa, K. Tanaka, and H. Hao et al. Monolayered mesenchymal stem cells repair scarred myocardium after myocardial infarction Nat Med 12 2006 459 465
11. S. Masuda, T. Shimizu, M. Yamato, and T. Okano Cell sheet engineering for heart tissue repair Adv Drug Deliv Rev 60 2008 277 285
12. T. Shimizu, H. Sekine, M. Yamato, and T. Okano Cell sheet-based myocardial tissue engineering: new hope for damaged heart rescue Curr Pharm Des 15 2009 2807 2814
13. S.G. Priya, H. Jungvid, and A. Kumar Skin tissue engineering for tissue repair and regeneration Tissue Eng Part B: Rev 14 2008 105 118
14. T. Dvir, A. Kedem, E. Ruvinov, O. Levy, I. Freeman, and N. Landa et al. Prevascularization of cardiac patch on the omentum improves its therapeutic outcome Proc Natl Acad Sci USA 106 2009 14990 14995
15. S.-W. Choi, Y. Zhang, and Y. Xia Three-dimensional scaffolds for tissue engineering: the importance of uniformity in pore size and structure Langmuir 26 2010 19001 19006
16. P.X. Ma, and J.-W. Choi Biodegradable polymer scaffolds with well-defined interconnected spherical pore network Tissue Eng 7 2001 23 33
17. N.A. Kotov, Y. Liu, S. Wang, C. Cumming, M. Eghtedari, and G. Vargas et al. Inverted colloidal crystals as three-dimensional cell scaffolds Langmuir 20 2004 7887 7892
18. A.J. Marshall, and B.D. Ratner Quantitative characterization of sphere-templated porous biomaterials AIChE J 51 2005 1221 1232
19. A.N. Stachowiak, A. Bershteyn, E. Tzatzalos, and D.J. Irvine Bioactive hydrogels with an ordered cellular structure combine interconnected macroporosity and robust mechanical properties Adv Mater 17 2005 399 403
20. S.-W. Choi, J. Xie, and Y. Xia Chitosan-based inverse opals: three-dimensional scaffolds with uniform pore structures for cell culture Adv Mater 21 2009 2997 3001
21. J.-Y. Lin, W.-J. Lin, W.-H. Hong, W.-C. Hung, S.H. Nowotarski, and S.M. Gouveia et al. Morphology and organization of tissue cells in 3D microenvironment of monodisperse foam scaffolds Soft Matter 7 2011 10010 10016
22. S.-W. Choi, Y. Zhang, M.R. MacEwan, and Y. Xia Neovascularization in biodegradable inverse opal scaffolds with uniform and precisely controlled pore sizes Adv Healthc Mater 2 2013 145 154
23. A.N. Stachowiak, and D.J. Irvine Inverse opal hydrogel-collagen composite scaffolds as a supportive microenvironment for immune cell migration J Biomed Mater Res A 85A 2008 815 828
24. Y. Zhang, and Y. Xia Formation of embryoid bodies with controlled sizes and maintained pluripotency in three-dimensional inverse opal scaffolds Adv Funct Mater 22 2012 121 129
25. F. Bai, J. Zhang, Z. Wang, J. Lu, J. Chang, and J. Liu et al. The effect of pore size on tissue ingrowth and neovascularization in porous bioceramics of controlled architecture in vivo Biomed Mater 6 2011 015007
26. M.J. Cuddihy, and N.A. Kotov Poly(lactic-co-glycolic acid) bone scaffolds with inverted colloidal crystal geometry Tissue Eng A 14 2008 1639 1649
27. S.-W. Choi, Y. Zhang, S. Thomopoulos, and Y. Xia In vitro mineralization by preosteoblasts in poly(DL-lactide-co-glycolide) inverse opal scaffolds reinforced with hydroxyapatite nanoparticles Langmuir 26 2010 12126 12131
28. Y.-C. Kuo, and Y.-T. Tsai Inverted colloidal crystal scaffolds for uniform cartilage regeneration Biomacromolecules 11 2010 731 739
29. Y.-C. Kuo, and Y.-T. Tsai Heparin-conjugated scaffolds with pore structure of inverted colloidal crystals for cartilage regeneration Colloid Surf B 82 2011 616 623
30. J. Lee, M.J. Cuddihy, G.M. Cater, and N.A. Kotov Engineering liver tissue spheroids with inverted colloidal crystal scaffolds Biomaterials 30 2009 4687 4694
31. L.R. Madden, D.J. Mortisen, E.M. Sussman, S.K. Dupras, J.A. Fugate, and J.L. Cuy et al. Proangiogenic scaffolds as functional templates for cardiac tissue engineering Proc Natl Acad Sci USA 2010 10.1073/pnas.1006442107
32. Y.-C. Kuo, and K.-H. Chiu Inverted colloidal crystal scaffolds with laminin-derived peptides for neuronal differentiation of bone marrow stromal cells Biomaterials 32 2011 819 831
33. D.J. Irvine, A.N. Stachowiak, and Y. Hori Lymphoid tissue engineering: invoking lymphoid tissue neogenesis in immunotherapy and models of immunity Semin Immunol 20 2008 137 146
34. J. Lee, and N.A. Kotov Notch ligand presenting acellular 3D microenvironments for ex vivo human hematopoietic stem-cell culture made by layer-by-layer assembly Small 5 2009 1008 1013
35. J. Lee, G.D. Lilly, R.C. Doty, P. Podsiadlo, and N.A. Kotov In vitro toxicity testing of nanoparticles in 3D cell culture Small 5 2009 1213 1221
36. S.R. Peyton, Z.I. Kalcioglu, J.C. Cohen, A.P. Runkle, K.J. Van Vliet, and D.A. Lauffenburger et al. Marrow-derived stem cell motility in 3D synthetic scaffold is governed by geometry along with adhesivity and stiffness Biotechnol Bioeng 108 2011 1181 1193
37. Y. Zhang, X. Cai, S.-W. Choi, C. Kim, L.V. Wang, and Y. Xia Chronic label-free volumetric photoacoustic microscopy of melanoma cells in three-dimensional porous scaffolds Biomaterials 31 2010 8651 8658
38. Y. Zhang, X. Cai, Y. Wang, C. Zhang, L. Li, and S.-W. Choi et al. Noninvasive photoacoustic microscopy of living cells in two and three dimensions through enhancement by a metabolite dye Angew Chem Int Ed 50 2011 7359 7363
39. Y. Zhang, S.-W. Choi, and Y. Xia Modifying the pores of an inverse opal scaffold with chitosan microstructures for truly three-dimensional cell culture Macromol Rapid Commun 33 2012 296 301
40. Y. Zhang, K.P. Regan, and Y. Xia Controlling the pore sizes and related properties of inverse opal scaffolds for tissue engineering applications Macromol Rapid Commun 34 2013 485 491
41. X. Cai, Y. Zhang, L. Li, S.-W. Choi, M.R. MacEwan, and J. Yao et al. Investigation of neovascularization in 3D porous scaffolds in vivo by photoacoustic microscopy and optical coherence tomography Tissue Eng C 19 2013 196 204
42. K. Maslov, H.F. Zhang, S. Hu, and L.V. Wang Optical-resolution photoacoustic microscopy for in vivo imaging of single capillaries Opt Lett 33 2008 929 931
43. S. Hu, K. Maslov, and L.V. Wang Second-generation optical-resolution photoacoustic microscopy with improved sensitivity and speed Opt Lett 36 2011 1134 1136
44. A.D. Bach, J.P. Beier, J. Stern-Staeter, and R.E. Horch Skeletal muscle tissue engineering J Cell Mol Med 8 2004 413 422
45. S. Levenberg, J. Rouwkema, M. Macdonald, E.S. Garfein, D.S. Kohane, and D.C. Darland et al. Engineering vascularized skeletal muscle tissue Nat Biotechnol 23 2005 879 884
46. Y. Wang, S. Hu, K. Maslov, Y. Zhang, Y. Xia, and L.V. Wang In vivo integrated photoacoustic and confocal microscopy of hemoglobin oxygen saturation and oxygen partial pressure Opt Lett 36 2011 1029 1031
47. J. Yao, K.I. Maslov, Y. Zhang, Y. Xia, and L.V. Wang Label-free oxygen-metabolic photoacoustic microscopy in vivo J Biomed Opt 16 2011 076003 076011
48. I. Kosmidou, A. Xagorari, C. Roussos, and A. Papapetropoulos Reactive oxygen species stimulate VEGF production from C2C12 skeletal myotubes through a PI3K/Akt pathway Lung Physiol 280 2001 L585 L592
49. N. Ouchi, R. Shibata, and K. Walsh AMP-activated protein kinase signaling stimulates VEGF expression and angiogenesis in skeletal muscle Circ Res 96 2005 838 846
50. E. Breen, K. Tang, M. Olfert, A. Knapp, and P. Wagner Skeletal muscle capillarity during hypoxia: VEGF and its activation High Alt Med Biol 9 2008 158 166
51. A.D. Bach, J. Stem-Straeter, J.P. Beier, H. Bannasch, and G.B. Stark Engineering of muscle tissue Clin Plast Surg 30 2003 589 599
52. M. Marzaro, M.T. Conconi, L. Perin, S. Giuliani, P. Gamba, and P. De Coppi et al. Autologous satellite cell seeding improves in vivo biocompatibility of homologous muscle acellular matrix implants Int J Mol Med 10 2002 177 182
53. W.E. Blanco-Bose, C.C. Yao, R.H. Kramer, and H.M. Blau Purification of mouse primary myoblasts based on alpha 7 integrin expression Exp Cell Res 265 2001 212 220