Method to analyze three-dimensional cell distribution and infiltration in degradable scaffolds

Tissue Engineering - Part C: Methods

Volumn 14, Issue 4, 2008, Pages 319-331

  Thevenot, Paul ^a   Nair, Ashwin ^a   Dey, Jagannath ^a   Yang, Jian ^a   Tang, Liping ^a,b  

^a The University of Texas at Arlington   (United States)

^b UNIVERSITY OF TEXAS AT ARLINGTON   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CELLS; CENTRIFUGATION; CYTOLOGY; INFILTRATION; SCAFFOLDS; SEEPAGE; SOIL MECHANICS; THREE DIMENSIONAL; TISSUE ENGINEERING;

CELL BEHAVIORS; CELL DISTRIBUTIONS; CELL INJECTIONS; CELL SEEDING; CELL SURVIVALS; CRYOSECTIONING TECHNIQUES; EFFICIENT METHODS; FLUORESCENCE CELLS; IMAGING METHODS; LIVE CELLS; NOVEL MATERIALS; SEEDING METHODS; TISSUE GRAFTS; TISSUE SCAFFOLDS;

CELL CULTURE;

ANIMAL CELL; ARTICLE; CELL FUNCTION; CELL INFILTRATION; CELL LABELING; CELL SURVIVAL; CELLULAR DISTRIBUTION; CONTROLLED STUDY; CRYOSECTIONING; DEGRADATION; FLUORESCENCE CELL STAINING; MOUSE; NONHUMAN; PRIORITY JOURNAL; TECHNIQUE; THREE DIMENSIONAL IMAGING; TISSUE ENGINEERING;

EID: 57349123316     PISSN: 19373384     EISSN: 19373392     Source Type: Journal    
DOI: 10.1089/ten.tec.2008.0221     Document Type: Article

References (68)

1. Gurtner GC, Callaghan MJ, Longaker MT. Progress and potential for regenerative medicine. Annu Rev Med 119, 1735, 2007.
2. Brown RA, Phillips JB. Cell response to biomimetic protein scaffolds used in tissue repair and engineering. Int Rev Cytol 262, 75, 2007.
3. Atiyeh BS, Costagliola M. Cultured epithelial autograft (CEA) in burn treatment: three decades later. Burns 33, 405, 2007.
4. Malafaya PB, Silva GA, Reis RL. Natural-origin polymers as carrier and scaffolds for biomolecules and cell delivery in tissue engineering applications. Adv Drug Deliv Rev 59, 207, 2007.
5. Johnsen S, Ermuth T, Tanczos E, Bannasch H, Horch RE, Zschocke I, Peschen M, Schopf E, Vanscheidt W, Augustin M. Treatment of therapy-refractive ulcera cruris of various origins with autologous keratinocytes in fibrin sealant. Vasa 34, 25, 2005.
6. Nevins ML. Aesthetic and regenerative oral plastic surgery: clinical applications in tissue engineering. Dent Today 25, 144, 2006.
7. Atala A, Bauer SB, Soker S, Yoo JJ, Retik AB. Tissue-engineering autologous bladders for patients needing cystoplasty. Lancet 367, 1241, 2006.
8. Sengers BG, Taylor M, Please CP, Oreffo RO. Computational modeling of cell spreading and tissue regeneration in porous scaffolds. Biomaterials 28, 1926, 2007.
9. Martin I, Wendt D, Heberer M. The role of bioreactors in tissue engineering. Trends Biotechnol 22, 80, 2004.
10. Wendt D, Marsano A, Jakob M, Heberer M, Martin I. Oscillating perfusion of cell suspensions through three-dimensional scaffolds enhances cell seeding efficiency and uniformity. Biotechnol Bioeng 84, 205, 2003.
11. Li Y, Ma T, Kniss DA, Lasky LC, Yang ST. Effects of filtration seeding on cell density, spatial distribution, and proliferation in nonwoven fibrous matrices. Biotechnol Prog 17, 935, 2001.
12. Zhao F, Ma T. Perfusion bioreactor system for human mesenchymal stem cell tissue engineering: dynamic seeding and construct development. Biotechnol Bioeng 91, 482, 2005.
13. van den Dolder J, Spauwen PH, Jansen JA. Evaluation of various seeding techniques for culturing osteogenic cells on titanium fiber mesh. Tissue Eng 9, 315, 2003.
14. Choong CS, Hutmacher DW, Triffitt JT. Co-culture of bone marrow fibroblasts and endothelial cells on modified polycaprolactone substrates for enhanced potentials in bone tissue engineering. Tissue Eng 12, 2521, 2006.
15. Wan Y, Wang Y, Liu Z, Qu X, Han B, Bei J, Wang S. Adhesion and proliferation of OCT-1 osteoblast-like cells on micro- and nano-scale topography structure poly(L-lactide). Biomaterials 26, 4453, 2005.
16. Honda MJ, Yada T, Ueda M, Kimata K. Cartilage formation by serial passaged cultured chondrocytes in a new scaffold: hybrid 75:25 poly(L-lactide-epsilon-caprolactone) sponge. J Oral Maxillofac Surg 62, 1510, 2004.
17. Hofmann A, Konrad L, Gotzen L, Printz H, Ramaswamy A, Hofmann C. Bioengineering human bone tissue using autogenous osteoblasts cultured on different biomatrices. J Biomed Mater Res A 67, 191, 2003.
18. Silva MMCG, Cyster LA, Barry JJA, Yang XB, Oreffo ROC, Grant DM, Scotchford CA, Howdle SM, Shakesheff KM, Rose FRAJ. The effect of anisotrophic architecture on cell and tissue infiltration into tissue engineering scaffolds. Biomaterials 27, 5909, 2006.
19. Roh JD, Nelson GN, Udelsman BV, Brennan MP, Lockhart B, Fong PM, Lopez-Soler RI, Saltzman WM, Breuer CK. Centrifugal seeding increases seeding efficiency and cellular distribution of bone marrow stromal cells in porous biodegradable scaffolds. Tissue Eng 13, 2743, 2007.
20. Wang Y, Uemura T, Dong J, Kojima H, Tanaka J, Tateishi T. Application of perfusion culture system improves in vitro and in vivo osteogenesis of bone marrow-derived osteoblastic cells in porous ceramic materials. Tissue Eng 9, 1205, 2003.
21. Solchaga LA, Tognana E, Penick K, Baskaran H, Goldberg VM, Caplan AI, Welter JF. A rapid seeding technique for the assembly of large cell/scaffold composite constructs. Tissue Eng 12, 1851, 2006.
22. Uematsu K, Hattori K, Ishimoto Y, Yamauchi J, Habata T, Takakura Y, Ohgushi H, Fukuchi T, Sato M. Cartilage regeneration using mesechymal stem cells and a three-dimensional poly-lactic-glycolic acid (PLGA) scaffold. Biomaterials 26, 4273, 2005.
23. Shen H, Hu X, Yang F, Bei J, Wang S. Combining oxygen plasma treatment with anchorage of cationized gelatin for enhancing cell affinity of poly(lactide-co-glycolide). Biomaterials 28, 4219, 2007.
24. Zhu Y, Chan-Park MB. Density quantification of collagen grafted on biodegradable polyester: its application to esophageal smooth muscle cell. Anal Biochem 363, 119, 2007.
25. Sahoo S, Ouyang H, Goh JC, Tay TE, Toh SL. Characterization of a novel polymeric scaffold for potential application in tendon/ligament tissue engineering. Tissue Eng 12, 91, 2006.
26. Koegler WS, Griffith LG. Osteoblast response to PLGA tissue engineering scaffolds with PEO modified surface chemistries and demonstration of patterned cell response. Biomaterials 25, 2819, 2004.
27. Spalazzi JP, Doty SB, Moffat KL, Levine WN, Lu HH. Development of controlled matrix heterogeneity on a triphasic scaffold for orthopedic interface tissue engineering. Tissue Eng 12, 3497, 2006.
28. Vunjak-Novakovic G, Kaplan DL. Tissue engineering: the next generation. Tissue Eng 12, 3261, 2006.
29. Wang Y, Kim UJ, Blasioli DJ, Kim HJ, Kaplan DL. In vitro cartilage tissue engineering with 3D porous aqueous-derived silk scaffolds and mesenchymal stem cells. Biomaterials 26, 7082, 2005.
30. Opitza F, Schenke-Layland K, Cohnert TU, Stock UA. Phenotypical plasticity of vascular smooth muscle cells - effect of in vitro and in vivo shear stress for tissue engineered blood vessels. Tissue Eng 13, 2505, 2007.
31. Doroski D, Tittman BR, Miyasaka C. Study of biomedical specimens using scanning acoustic microscopy. Acoustical Imaging 28, 13, 2007.
32. Flynn L, Prestwich GD, Semple JL, Woohouse KA. Adipose tissue engineering with naturally derived scaffolds and adipose-derived stem cells. Biomaterials 28, 3834, 2007.
33. Thurner P, Muller R, Raeber G, Sennhauser U, Hubbell JA. 3D morphology of cell cultures: a qualitative approach using micrometer synchrotron light tomography. Microsc Res Tech 66, 289, 2005.
34. Heymer A, Haddad D, Weber M, Gbureck U, Jakob PM, Eulert J, Noth U. Iron oxide labeling of human mesenchymal stem cells in collagen hydrogels for articular cartilage repair. Biomaterials 29, 1473, 2008.
35. Yang J, Shi G, Bei J, Wang S, Cao Y, Shang Q, Yang G, Wang W. Fabrication and surface modification of macroporous poly(L-lactic acid) and poly(L-lactic-co-glycolic acid) (70/30) cell scaffolds for human skin fibroblast cell culture. J Biomed Mater Res 62, 438, 2002.
36. Sander EA, Alb AM, Nauman EA, Reed WF, Dee KC. Solvent effects on the microstructure and porosity of 75/25 poly (D,L-lactide-co-glycolide) tissue scaffolds. J Biomed Mater Res A 70, 506, 2004.
37. Neimeyer P, Krause U, Fellenberg J, Kasten P, Seckinger A, Ho AD, Simank HG. Evaluation of mineralized cartilage and alpha-tricalcium phosphate as scaffolds for tissue engineering of bone using human mesenchymal stem cells. Cells Tissues Organs 177, 68, 2004.
38. Blum JS, Temenoff JS, Park H, Jansen JA, Mikos AG, Barry MA. Development and characterization of green fluorescent protein and luciferase expressing cell line for non-destructive evaluation of tissue engineering constructs. Biomaterials 25, 5809, 2004.
39. O'Brien FJ, Harley BA, Yannas IV, Gibson LJ. The effect of pore size on cell adhesion in collagen-GAG scaffolds. Biomaterials 26, 433, 2005.
40. Almarza AJ, Athanasiou KA. Seeding techniques and scaffolding choice for tissue engineering of temporomandibular joint disk. Tissue Eng 10, 1787, 2004.
41. Yasuda K, Inoue S, Tabata Y. Influence of culture method on the proliferation and osteogenic differentiation of human adipo-stromal cells in nonwoven fabrics. Tissue Eng 10, 1587, 2004.
42. Godbey WT, Hindy SB, Sherman ME, Atala A. A novel use of centrifugal force for cell seeding into porous scaffolds. Biomaterials 25, 2799, 2004.
43. Abramoff MD, Magelhaes PJ, Ram SJ. Image processing with ImageJ. Biophotonics Int 11, 36, 2004.
44. Ozawa T, Mickle DA, Weisel RD, Koyama N, Wong H, Ozawa S, Li RK. Histological changes of nonbiodegradable and biodegradable biomaterials used to repair right ventricular heart defects in rats. J Thorac Cardiovasc Surg 124, 1157, 2002.
45. Robinson KA, Matheny RG. Myocardial tissue replacement with extracellular matrix scaffolds. Heart Surg Forum 6, 8, 2002.
46. Kofidis T, Bruin JL, Hoyt G, Ho Y, Tanaka M, Yamane T, Lebl DR, Swijnenburg RJ, Chang CP, Quertermous T, Robbins RC. Myocardial restoration with embryonic stem cell bioartificial tissue transplantation. J Heart Lung Transplant 24, 737, 2005.
47. Lutolf MP, Hubbell JA. Synthetic biomaterials as instructive extracellular microenvironments for morphogenesis in tissue engineering. Nat Biotechnol 23, 47, 2005.
48. Takezawa T. A strategy for the development of tissue engineering scaffolds that regulate cell behavior. Biomaterials 24, 2267, 2003.
49. Sodian R, Lemke T, Fritsche C, Hoerstrup SP, Fu P, Potapov EV, Hausmann H, Hetzer R. Tissue-engineering bioreactors: a new combined cell seeding and perfusion system for vascular tissue engineering. Tissue Eng 8, 863, 2002.
50. Tan EP, Lim CT. Characterization of bulk properties of nanofibrous scaffolds from nanomechanical properties of single nanofibers. J Biomed Mater Res A 77, 526, 2006.
51. Burg KJ, Delnomdedieu M, Beiler RJ, Culberson CR, Greene KG, Halberstadt CR, Holder WJ Jr, Loebsack AB, Roland WD, Johnson GA. Application of magnetic resonance microscopy to tissue engineering: a polylactide model. J Biomed Mater Res 61, 380, 2002.
52. Gong Y, He L, Li J, Zhou Q, Ma Z, Gao C, Shen J. Hydrogel-filled polylactide porous scaffolds for cartilage tissue engineering. J Biomed Mater Res B Appl Biomater 82, 192, 2007.
53. Nam YS, Yoon JJ, Park TG. A novel fabrication method of macroporous biodegradable polymer scaffolds using gas foaming salt as a porogen. J Biomed Mater Res 53, 1, 2000.
54. Chen G, Sato T, Ushida T, Ochiai N, Tateishi T. Tissue engineering of cartilage using a hybrid scaffold of synthetic polymer and collagen. Tissue Eng 10, 323, 2004.
55. Ren T, Ren J, Jia X, Pan K. The bone formation in vivo and mandibular defect repair using PLGA porous scaffolds. J Biomed Mater Res A 74, 562, 2005.
56. Lin HR, Kuo CJ, Yang CY, Shaw SY, Wu YJ. Preparation of macroporous biodegradable PLGA scaffolds for cell attachement with the use of mixed salts as porogen additives. J Biomed Mater Res 63, 271, 2002.
57. Holy CE, Shoichet MS, Davies JE. Engineering three-dimensional bone tissues in vitro using biodegradable scaffolds: investigating initial cell-seeding density and culture period. J Biomed Mater Res 51, 376, 2000.
58. Chong AK, Ang AD, Goh JC, Hui JH, Lim AY, Lee EH, Lim BH. Bone marrow-derived mesenchymal stem cells influence early tendon-healing in a rabbit Achilles tendon model. J Bone Joint Surg Am 89, 74, 2007.
59. Nieponice A, Soletti L, Guan J, Deasy BM, Huard J, Wagner WR, Vorp DA. Development of a tissue-engineered vascular graft combining a biodegradable scaffolds, muscle-derived stem cells and a rotational vacuum seeding technique. Biomaterials 29, 825, 2008.
60. Mauney JR, Blumberg J, Pirun M, Volloch V, Vunjak-Novakovic G, Kaplan DL. Osteogenic differentiation of human bone marrow stromal cells on partially demineralized bone scaffolds in vitro. Tissue Eng 10, 81, 2004.
61. Dvir-Ginzberg M, Gamlieli-Bonshtein I, Agbaria R, Cohen S. Live tissue engineering with alginate scaffolds: effects of cell-seeding density on hepatocyte viability, morphology, and function. Tissue Eng 9, 757, 2003.
62. Vacanti CA, Bonassar LJ, Vacanti MP, Shufflebarger J. Replacement of an avulsed phalanx with tissue-engineered bone. N Engl J Med 344, 1511, 2001.
63. Gonen-Wadmany M, Gepstein L, Seliktar D. Controlling the cellular organization of tissue-engineered cardiac constructs. Ann NY Acad Sci 1015, 299, 2004.
64. Boland ED, Matthews JA, Pawlowski KJ, Simpson DG, Wnek GE, Bowlin GL. Electrospinning collagen and elastin: Preliminary vascular tissue engineering. Front Biosci 9, 1422, 2004.
65. Liu H, Fan H, Wang Y, Toh SL, Goh JCH. The interaction between a combined knitted silk scaffolds and microporous silk sponge with human mesenchymal stem cells for ligament tissue engineering. Biomaterials 29, 662, 2008.
66. Kim HJ, Kim UJ, Leisk GG, Bayan C, Georgakoudi I, Kaplan DL. Bone regeneration on aqueous-derived silk 3D scaffolds. Macromol Biosci 7, 643, 2007.
67. Kim BS, Putnam AJ, Kulik TJ, Mooney DJ. Optimizing seeding and culture methods to engineering smooth muscle tissue on biodegradable polymer matrices. Biotechnol Bioeng 57, 46, 1998.
68. Takahashi Y, Yamamoto M, Tabata Y. Osteogenic differentiation of mesenchymal stem cells in biodegradable sponges composed of gelatin and beta-tricalcium phosphate. Biomaterials 26, 3587, 2005.