The contribution of electrospinning to tissue engineering and related fields

Tissue Engineering: Roles, Materials and Applications

Volumn , Issue , 2008, Pages 83-97

  Shanmugasundaram, Shobana ^a   Imura, Yuki ^a   Jaffe, Michael ^a   Arinzeh, Treena Livingston ^a  

^a NEW JERSEY INSTITUTE OF TECHNOLOGY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 85060274280     PISSN: None     EISSN: None     Source Type: Book    
DOI: None     Document Type: Chapter

References (60)

1. Formhals, A., U.S. Patent, 1,975,504 (1934)
2. Reneker, DH; Yarin, AL; Fong, H; Koombhongse, S. Bending instability of electrically charged liquid jets of polymer solutions in electrospinning. Journal of Applied Physics, 2000, 87, 4531-4547.
3. Taylor, G. Disintegration of water drops in an electric field. Proceedings of the Royal Society of London. A, 1964, 280, 383-397.
4. Taylor, G. Electrically driven jets. Proceedings of the Royal Society of London. A, 1969, 313, 453-475.
5. Cloupeau, M; Prunet-Foch, B. Electrohydrodynamic spraying functioning modes: a critical review. Journal of Aerosol Science, 1994, 25, 1021-1036.
6. Baumgarten, P. Electrostatic spinning of acrylic microfibers. Journal of Colloid and Interface Science, 1971, 36, 71-79.
7. Shin, YM; Hohman, MM; Brenner, MP; Rutledge, GC. Electrospinning: A whipping fluid jet generates submicron polymer fibers. Applied Physics Letters, 2001, 78, 1149-1151.
8. Deitzel, JM; Kleinmeyer, J; Harris, D; Beck Tan, NC. The effect of processing variables on the morphology of electrospun nanofibers and textiles. Polymer, 2001, 42, 261-272.
9. Theron, SA; Zussman, E; Yarin, AL. Experimental investigation of the governing parameters in the electrospinning of polymer solutions. Polymer, 2004, 45, 2017-2030.
10. Ramakrishna, S; Fujihara, K; Teo, W; Lim, TC; Ma, Z. An Introduction to Electrospinning of Nanofibers. First Edition. Singapore: World Scientific; 2005.
11. Zong, X; Kim, K; Fang, D; Ran, S; Hsiao, B; Chu, B. Structure and process relationship of electrospun bioabsorbable nanofiber membranes. Polymer, 2002, 43, 4403-4412.
12. Hynda K Kleinman DP, Matthew P Hoffman. Role of the extracellular matrix in morphogenesis. Current Opinion in Biotechnology. 2003;14:526-532.
13. Francesco Rosso AG, Manlio Barbarisi, Alfonso Barbarisi. From Cell-ECM Interactions to Tissue Engineering. Journal Of Cellular Physiology. 2004;199:174-180.
14. C.T. Laurencin AMAA, M.D. Borden, J.A. Cooper, Jr., . Tissue engineering: orthopedic applications. Annu. Rev. Biomed. Eng. 1999;1:19-46.
15. Li WJ CJJ, Mauck RL, Tuan RS. Fabrication and characterization of six electrospun poly(alpha-hydroxy ester)-based fibrous scaffolds for tissue engineering applications. Acta Biomater. 2006;2(4):377-385.
16. Sui G YX, Mei F, Hu X, Chen G, Deng X, Ryu S. Poly-L-lactic acid/hydroxyapatite hybrid membrane for bone tissue regeneration. J. Biomed. Mater. Res. A. 2007;82(2):445-454.
17. Zong X BH, Chung CY, Yin L, Fang D, Hsiao BS, Chu B, Entcheva E. Electrospun fine-textured scaffolds for heart tissue constructs. Biomaterials. 2005;26(26):5330-5338.
18. Yang F XC, Kotaki M, Wang S, Ramakrishna S. Characterization of neural stem cells on electrospun poly(L-lactic acid) nanofibrous scaffold. J. Biomater. Sci. Polym. Ed. 2004;15(12):1483-1497.
19. Srouji S KT, Suss-Tobi E, Livne E, Zussman E. 3-D Nanofibrous electrospun multilayered construct is an alternative ECM mimicking scaffold. J. Mater. Sci. Mater. Med 2007.
20. Meng W KS, Yuan J, Kim JC, Kwon OH, Kawazoe N, Chen G, Ito Y, Kang IK. Electrospun PHBV/collagen composite nanofibrous scaffolds for tissue engineering. J. Biomater. Sci. Polym. Ed. 2007;18(1):81-94. .
21. S. Zhong WET, X. Zhu, R.W. Beuerman, S. Ramakrishna, L.Y.L.Yung. An aligned nanofibrous collagen scaffold by electrospinning and its effects on in vitro fibroblast culture. Journal of Biomedical Materials Research Part A. 2006;79A:456-463.
22. Shields KJ BM, Bowlin GL, Wayne JS. Mechanical properties and cellular proliferation of electrospun collagen type II. Tissue Eng. 2004;10:1510-1517.
23. M. Li MJM, M.R. Gandhi, F.K. Ko, A.S. Weiss, P.I. Lelkes. Electrospun protein fibers as matrices for tissue engineering. Biomaterials. 2005;26:5999-6008.
24. Bhattarai N ED, Veiseh O, Matsen FA, Zhang M. Electrospun chitosan-based nanofibers and their cellular compatibility. Biomaterials. 2005;26(31):6176-6184.
25. McManus MC BE, Simpson DG, Barnes CP, Bowlin GL. Electrospun fibrinogen: feasibility as a tissue engineering scaffold in a rat cell culture model. J. Biomed. Mater. Res. A. 2007;81(2):299-309.
26. B.M. Min GL, S.H. Kim, Y.S. Nam, T.S. Lee, W.H. Park. Electrospinning of silk fibroin nanofibers and its effect on the adhesion and spreading of normal human keratinocytes and fibroblasts in vitro. Biomaterials. 2004;25:1289-1297.
27. R Murugan SR. Design Strategies of Tissue Engineering Scaffolds with Controlled Fiber Orientation. Tissue Engineering. 2007;13(8):1845-1866.
28. Satoru Kidoaki IKK, Takehisa Matsuda. Mesoscopic spatial designs of nano-and microfiber meshes for tissue-engineering matrix and scaffold based on newly devised multilayering and mixing electrospinning techniques. Biomaterials. 2005;26:37-46.
29. Wei Wang SI, Atsushi Matsuda, Shizuko Ichinose, Kenichi Shinomiya, Yuiro Hata, Junzo Tanaka. Influences of mechanical properties and permeability on chitosan nano/microfiber mesh tubes as a scaffold for nerve regeneration. Journal of Biomedical Materials Research Part A. 2007.
30. Michael Bognitzki WC, Thomas Frese, Andreas Schaper, Michael Hellwig, Martin Steinhart, Andreas Greiner, and Joachim H. Wendorff. Nanostructured Fibers via Electrospinning. Advanced Materials. 2001;13:70-72.
31. Jayasinghe SN IS, McEwan JR. Cell electrospinning highly concentrated cellular suspensions containing primary living organisms into cell-bearing threads and scaffolds. Nanomed. 2007;2(4):555-567.
32. John J. Stankusa LS, Kazuro Fujimotoc, Yi Hongc, David A. Vorpb, William R. Wagner. Fabrication of cell microintegrated blood vessel constructs through electrohydrodynamic atomization. Biomaterials. 2007;28:2738-2746.
33. H. M. Powell STB. Fiber density of electrospun gelatin scaffolds regulates morphogenesis of dermal-epidermal skin substitutes. Journal of Biomedical Materials Research Part A.
34. GeunHyung Kim WK. Highly Porous 3D Nanofiber Scaffold Using an Electrospinning Technique. Journal of Biomedical Materials Research Part B: Applied Biomaterials. 2007;81(1):104-110.
35. Noh HK LS, Kim JM, Oh JE, Kim KH, Chung CP, Choi SC, Park WH, Min BM. Electrospinning of chitin nanofibers: degradation behavior and cellular response to normal human keratinocytes and fibroblasts. Biomaterials. 2006;27(21):3934-3944.
36. Shields KJ BM, Bowlin GL, Wayne JS. Mechanical properties and cellular proliferation of electrospun collagen type II. Tissue Eng. 2004;10(9-10):1510-1517.
37. Baker BM MR. The effect of nanofiber alignment on the maturation of engineered meniscus constructs. Biomaterials. 2007;28(11):1967-1977.
38. Sahoo S OH, Goh JC, Tay TE, Toh SL. Characterization of a novel polymeric scaffold for potential application in tendon/ligament tissue engineering. Tissue Eng. 2006;12(1):91-99.
39. Hae-Won Kim H-HL, Gae-Sig Chun. Bioactivity and osteoblast responses of novel biomedical nanocomposites of bioactive glass nanofiber filled poly(lactic acid). Journal of Biomedical Materials Research Part A. 2007;Epub 23 Jul 2007.
40. Ju-Ha Song B-HY, Hyoun-Ee Kim, Hae-Won Kim. Bioactive and degradable hybridized nanofibers of gelatin-siloxane for bone regeneration. Journal of Biomedical Materials Research Part A. 2007;Epub 23 Jul 2007.
41. Gang Sui XY, Fang Mei,Xiaoyang Hu,Guoqiang Chen,Xuliang Deng, Seungkon Ryu. Poly-L-lactic acid/hydroxyapatite hybrid membrane for bone tissue regeneration. Journal of Biomedical Materials Research Part A. 2007;82(2):445-454.
42. Li C VC, Jin HJ, Kim HJ, Kaplan DL. Electrospun silk-BMP-2 scaffolds for bone tissue engineering. Biomaterials. 2006;27(16):3115-3124.
43. Fujihara K KM, Ramakrishna S. . Guided bone regeneration membrane made of polycaprolactone/calcium carbonate composite nano-fibers. Biomaterials. 2005;26(19):4139-4147. .
44. M. I. Van Lieshout CMV, M. C. M. Rutten, G. W. M. Peters, F. P. T. Baaijens. Electrospinning versus knitting: two scaffolds for tissue engineering of the aortic valve. J. Biomater. Sci. Polymer. Edn. 2006;17(1-2):77-89.
45. Xinhua Zong HB, Chiung-Yin Chung, Lihong Yin, Dufei Fang,Benjamin S. Hsiao, Benjamin Chu, Emilia Entcheva. Electrospun fine-textured scaffolds for heart tissue constructs. Biomaterials. 2005;26:5330-5338.
46. He W YT, Teo WE, Ma Z, Ramakrishna S. Fabrication and endothelialization of collagen-blended biodegradable polymer nanofibers: potential vascular graft for blood vessel tissue engineering. Tissue Eng. 2005;11(9-10):1574-1588.
47. Zhang J QH, Wang H, Hu P, Ou L, Guo S, Li J, Che Y, Yu Y, Kong D. Engineering of vascular grafts with genetically modified bone marrow mesenchymal stem cells on poly (propylene carbonate) graft. Artif Organs. 2006;30(12):898-905.
48. Stitzel J LJ, Lee SJ, Komura M, Berry J, Soker S, Lim G, Van Dyke M, Czerw R, Yoo JJ, Atala A. Controlled fabrication of a biological vascular substitute. Biomaterials. 2006;27(7):1088-1094.
49. Ma Z HW, Yong T, Ramakrishna S. Grafting of gelatin on electrospun poly(caprolactone) nanofibers to improve endothelial cell spreading and proliferation and to control cell Orientation. Tissue Eng. 2005 11(7-8):1149-1158.
50. Williamson MR BR, Kielty C. PCL-PU composite vascular scaffold production for vascular tissue engineering: attachment, proliferation and bioactivity of human vascular endothelial cells. Biomaterials. 2006 27(19):3608-3616.
51. Carampin P CM, Lora S, Menti AM, Baiguera S, Bellini S, Grandi C, Parnigotto PP. Electrospun polyphosphazene nanofibers for in vitro rat endothelial cells proliferation. J. Biomed. Mater Res. A. 2007;80(3):661-668.
52. Zhu Y LM, Ong WF, Chan-Park MB, Chian KS. Esophageal epithelium regeneration on fibronectin grafted poly(L-lactide-co-caprolactone) (PLLC) nanofiber scaffold. Biomaterials. 2007;28(5):861-868.
53. Chua KN LW, Zhang P, Lu H, Wen J, Ramakrishna S, Leong KW, Mao HQ. Stable immobilization of rat hepatocyte spheroids on galactosylated nanofiber scaffold. Biomaterials. 2005;26(15):2537-2547.
54. Schindler M AI, Kamal J, Nur-E-Kamal A, Grafe TH, Young Chung H, Meiners S. A synthetic nanofibrillar matrix promotes in vivo-like organization and morphogenesis for cells in culture. Biomaterials. 2005;26(28):5624-5631.
55. Huber A PA, Shakesheff KM. Reconstruction of spatially orientated myotubes in vitro using electrospun, parallel microfibre arrays. Eur. Cell Mater. 2007;14:56-63.
56. Riboldi SA SN, Pigini L, Neuenschwander P, Simonet M, Mognol P, Sampaolesi M, Cossu G, Mantero S. Skeletal myogenesis on highly orientated microfibrous polyesterurethane scaffolds. J. Biomed. Mater. Res. A. 2007;Epub Aug 8.
57. Patel S KK, Quigley R, Gao H, Hsiao BS, Poo MM, Li S. Bioactive nanofibers: synergistic effects of nanotopography and chemical signaling on cell guidance. Nano Letters. 2007;7(7):2122-2128.
58. Schnell EKK, Balzer S, Brook G, Klee D, Dalton P, Mey J. Guidance of glial cell migration and axonal growth on electrospun nanofibers of poly-e-caprolactone and a collagen/poly-e-caprolactone blend. Biomaterials. 2007;28:3012-3025.
59. Srouji S KT, Suss-Tobi E, Livne E, Zussman E. 3-D Nanofibrous electrospun multilayered construct is an alternative ECM mimicking scaffold. J. Mater. Sci: Mater Med. 2007;Epub Aug 15, 2007
60. Wang W SI, Matsuda A, Ichinose S, Shinomiya K, Hata Y, Tanaka J. Influences of mechanical properties and permeability on chitosan nano/microfiber mesh tubes as a scaffold for nerve regeneration. Journal of Biomedical Materials Research Part A. 2007;Epub Oct 2007.