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Volumn 31, Issue 9, 2013, Pages 1382-1389

Electrospun fibers as a scaffolding platform for bone tissue repair

Author keywords

electrospinning; extracellular matrix (ECM); periosteum

Indexed keywords

COLLAGEN FIBER; TISSUE SCAFFOLD; TRANSCRIPTION FACTOR RUNX2;

EID: 84881027724     PISSN: 07360266     EISSN: 1554527X     Source Type: Journal    
DOI: 10.1002/jor.22367     Document Type: Article
Times cited : (78)

References (63)
  • 1
    • 17144376020 scopus 로고    scopus 로고
    • Potential of nanofiber matrix as tissue-engineering scaffolds
    • Ma, Z, Kotaki, M, Inai, R, et al. 2005. Potential of nanofiber matrix as tissue-engineering scaffolds. Tissue Eng 11: 101-109.
    • (2005) Tissue Eng , vol.11 , pp. 101-109
    • Ma, Z.1    Kotaki, M.2    Inai, R.3
  • 2
    • 52649164508 scopus 로고    scopus 로고
    • Electrospun nanofiber scaffolds: Engineering soft tissues
    • Kumbar, SG, James, R, Nukavarapu, SP, et al. 2008. Electrospun nanofiber scaffolds: engineering soft tissues. Biomed Mater 3: 034002.
    • (2008) Biomed Mater , vol.3 , pp. 034002
    • Kumbar, S.G.1    James, R.2    Nukavarapu, S.P.3
  • 3
    • 4043075572 scopus 로고    scopus 로고
    • Electrospinning of nanofibers: Reinventing the wheel
    • Li, D, Xia, Y., 2004. Electrospinning of nanofibers: reinventing the wheel ? Adv Mater 16: 1151.
    • (2004) Adv Mater , vol.16 , pp. 1151
    • Li, D.1    Xia, Y.2
  • 5
    • 80054062393 scopus 로고    scopus 로고
    • Biomimetic nanofibrous scaffolds for bone tissue engineering
    • Holzwarth, JM, Ma, PX., 2011. Biomimetic nanofibrous scaffolds for bone tissue engineering. Biomaterials 32: 9622-9629.
    • (2011) Biomaterials , vol.32 , pp. 9622-9629
    • Holzwarth, J.M.1    Ma, P.X.2
  • 7
    • 84858978170 scopus 로고    scopus 로고
    • Fabrication of large pores in electrospun nanofibrous scaffolds cellular infiltration: A review
    • Zhong, S, Zhang, Y, Lim, CT., 2012. Fabrication of large pores in electrospun nanofibrous scaffolds cellular infiltration: a review. Tissue Eng Part B Rev 18: 77-87.
    • (2012) Tissue Eng Part B Rev , vol.18 , pp. 77-87
    • Zhong, S.1    Zhang, Y.2    Lim, C.T.3
  • 8
    • 84859422788 scopus 로고    scopus 로고
    • Fabrication and evaluation of biomimetic-synthetic nanofibrous composites for soft tissue regeneration
    • Gee, AO, Baker, BM, Silverstein, AM, et al. 2012. Fabrication and evaluation of biomimetic-synthetic nanofibrous composites for soft tissue regeneration. Cell Tissue Res 347: 803-813.
    • (2012) Cell Tissue Res , vol.347 , pp. 803-813
    • Gee, A.O.1    Baker, B.M.2    Silverstein, A.M.3
  • 9
    • 67649967122 scopus 로고    scopus 로고
    • Science of nanofibrous scaffold fabrication: Strategies for next generation tissue-engineering scaffolds
    • Madurantakam, PA, Cost, CP, Simpson, DG, et al. 2009. Science of nanofibrous scaffold fabrication: strategies for next generation tissue-engineering scaffolds. Nanomedicine (London) 4: 193-206.
    • (2009) Nanomedicine (London) , vol.4 , pp. 193-206
    • Madurantakam, P.A.1    Cost, C.P.2    Simpson, D.G.3
  • 10
    • 69249203496 scopus 로고    scopus 로고
    • The growth and differentiation of mesenchymal stem and progenitor cells cultured on aligned collagen matrices
    • Lanfer, B, Seib, FP, Freudenberg, U, et al. 2009. The growth and differentiation of mesenchymal stem and progenitor cells cultured on aligned collagen matrices. Biomaterials 30: 5950-5958.
    • (2009) Biomaterials , vol.30 , pp. 5950-5958
    • Lanfer, B.1    Seib, F.P.2    Freudenberg, U.3
  • 11
    • 32644479707 scopus 로고    scopus 로고
    • Electrospun silk-BMP-2 scaffolds for bone tissue engineering
    • Li, C, Vepari, C, Jin, HJ, et al. 2006. Electrospun silk-BMP-2 scaffolds for bone tissue engineering. Biomaterials 27: 3115-3124.
    • (2006) Biomaterials , vol.27 , pp. 3115-3124
    • Li, C.1    Vepari, C.2    Jin, H.J.3
  • 12
    • 33750040827 scopus 로고    scopus 로고
    • Biodegradable nanomats produced by electrospinning: Expanding multifunctionality and potential for tissue engineering
    • Ashammakhi, N, Ndreu, A, Piras, A, et al. 2006. Biodegradable nanomats produced by electrospinning: expanding multifunctionality and potential for tissue engineering. J Nanosci Nanotechnol 6: 2693-2711.
    • (2006) J Nanosci Nanotechnol , vol.6 , pp. 2693-2711
    • Ashammakhi, N.1    Ndreu, A.2    Piras, A.3
  • 13
    • 40049090999 scopus 로고    scopus 로고
    • Electrospinning: Applications in drug delivery and tissue engineering
    • Sill, TJ, von Recum, HA., 2008. Electrospinning: applications in drug delivery and tissue engineering. Biomaterials 29: 1989-2006.
    • (2008) Biomaterials , vol.29 , pp. 1989-2006
    • Sill, T.J.1    Von Recum, H.A.2
  • 14
    • 33644529130 scopus 로고    scopus 로고
    • Capturing complex 3D tissue physiology in vitro
    • Griffith, LG, Swartz, MA., 2006. Capturing complex 3D tissue physiology in vitro. Nat Rev Mol Cell Biol 7: 211-224.
    • (2006) Nat Rev Mol Cell Biol , vol.7 , pp. 211-224
    • Griffith, L.G.1    Swartz, M.A.2
  • 15
    • 84855183452 scopus 로고    scopus 로고
    • Electrospun scaffolds for bone tissue engineering
    • Di Martino, A, Liverani, L, Rainer, A, et al. 2011. Electrospun scaffolds for bone tissue engineering. Musculoskelet Surg 95: 69-80.
    • (2011) Musculoskelet Surg , vol.95 , pp. 69-80
    • Di Martino, A.1    Liverani, L.2    Rainer, A.3
  • 17
    • 0037097175 scopus 로고    scopus 로고
    • Electrospun nanofibrous structure: A novel scaffold for tissue engineering
    • Li, WJ, Laurencin, CT, Caterson, EJ, et al. 2002. Electrospun nanofibrous structure: a novel scaffold for tissue engineering. J Biomed Mater Res 60: 613-621.
    • (2002) J Biomed Mater Res , vol.60 , pp. 613-621
    • Li, W.J.1    Laurencin, C.T.2    Caterson, E.J.3
  • 18
    • 48849085525 scopus 로고    scopus 로고
    • A perspective: Engineering periosteum for structural bone graft healing
    • Zhang, X, Awad, HA, O'Keefe, RJ, et al. 2008. A perspective: engineering periosteum for structural bone graft healing. Clin Orthop Relat Res 466: 1777-1787.
    • (2008) Clin Orthop Relat Res , vol.466 , pp. 1777-1787
    • Zhang, X.1    Awad, H.A.2    O'Keefe, R.J.3
  • 19
    • 28144436728 scopus 로고    scopus 로고
    • Periosteal progenitor cell fate in segmental cortical bone graft transplantations: Implications for functional tissue engineering
    • Zhang, X, Xie, C, Lin, AS, et al. 2005. Periosteal progenitor cell fate in segmental cortical bone graft transplantations: implications for functional tissue engineering. J Bone Miner Res 20: 2124-2137.
    • (2005) J Bone Miner Res , vol.20 , pp. 2124-2137
    • Zhang, X.1    Xie, C.2    Lin, A.S.3
  • 20
    • 79956371029 scopus 로고    scopus 로고
    • Multiscale mechanobiology of de novo bone generation, remodeling and adaptation of autograft in a common ovine femur model
    • Knothe Tate, ML, Dolejs, S, McBride, SH, et al. 2011. Multiscale mechanobiology of de novo bone generation, remodeling and adaptation of autograft in a common ovine femur model. J Mech Behav Biomed Mater 4: 829-840.
    • (2011) J Mech Behav Biomed Mater , vol.4 , pp. 829-840
    • Knothe Tate, M.L.1    Dolejs, S.2    McBride, S.H.3
  • 21
    • 49149107286 scopus 로고    scopus 로고
    • Collagen orientation in periosteum and perichondrium is aligned with preferential directions of tissue growth
    • Foolen, J, van Donkelaar, C, Nowlan, N, et al. 2008. Collagen orientation in periosteum and perichondrium is aligned with preferential directions of tissue growth. J Orthop Res 26: 1263-1268.
    • (2008) J Orthop Res , vol.26 , pp. 1263-1268
    • Foolen, J.1    Van Donkelaar, C.2    Nowlan, N.3
  • 22
    • 0023006194 scopus 로고
    • An ultrastructural study of osteogenesis in chick periosteum in vitro
    • Tenenbaum, HC, Palangio, KG, Holmyard, DP, et al. 1986. An ultrastructural study of osteogenesis in chick periosteum in vitro. Bone 7: 295-302.
    • (1986) Bone , vol.7 , pp. 295-302
    • Tenenbaum, H.C.1    Palangio, K.G.2    Holmyard, D.P.3
  • 23
    • 77953534074 scopus 로고    scopus 로고
    • Magnetic field-assisted electrospinning of aligned straight and wavy polymeric nanofibers
    • Liu, Y, Zhang, X, Xia, Y, et al. 2010. Magnetic field-assisted electrospinning of aligned straight and wavy polymeric nanofibers. Adv Mater 22: 2454-2457.
    • (2010) Adv Mater , vol.22 , pp. 2454-2457
    • Liu, Y.1    Zhang, X.2    Xia, Y.3
  • 24
    • 0036259278 scopus 로고    scopus 로고
    • Cyclooxygenase-2 regulates mesenchymal cell differentiation into the osteoblast lineage and is critically involved in bone repair
    • Zhang, X, Schwarz, EM, Young, DA, et al. 2002. Cyclooxygenase-2 regulates mesenchymal cell differentiation into the osteoblast lineage and is critically involved in bone repair. J Clin Invest 109: 1405-1415.
    • (2002) J Clin Invest , vol.109 , pp. 1405-1415
    • Zhang, X.1    Schwarz, E.M.2    Young, D.A.3
  • 25
    • 78650203492 scopus 로고    scopus 로고
    • Activation of the Hh pathway in periosteum-derived mesenchymal stem cells induces bone formation in vivo: Implication for postnatal bone repair
    • Wang, Q, Huang, C, Zeng, F, et al. 2010. Activation of the Hh pathway in periosteum-derived mesenchymal stem cells induces bone formation in vivo: implication for postnatal bone repair. Am J Pathol 177: 3100-3111.
    • (2010) Am J Pathol , vol.177 , pp. 3100-3111
    • Wang, Q.1    Huang, C.2    Zeng, F.3
  • 26
    • 79751536672 scopus 로고    scopus 로고
    • Expression of endogenous BMP-2 in periosteal progenitor cells is essential for bone healing
    • Wang, Q, Huang, C, Xue, M, et al. 2011. Expression of endogenous BMP-2 in periosteal progenitor cells is essential for bone healing. Bone 48: 524-532.
    • (2011) Bone , vol.48 , pp. 524-532
    • Wang, Q.1    Huang, C.2    Xue, M.3
  • 27
    • 38749098732 scopus 로고    scopus 로고
    • Extracellular matrix made by bone marrow cells facilitates expansion of marrow-derived mesenchymal progenitor cells and prevents their differentiation into osteoblasts
    • Chen, XD, Dusevich, V, Feng, JQ, et al. 2007. Extracellular matrix made by bone marrow cells facilitates expansion of marrow-derived mesenchymal progenitor cells and prevents their differentiation into osteoblasts. J Bone Miner Res 22: 1943-1956.
    • (2007) J Bone Miner Res , vol.22 , pp. 1943-1956
    • Chen, X.D.1    Dusevich, V.2    Feng, J.Q.3
  • 29
    • 32544452057 scopus 로고    scopus 로고
    • Collagen fibril morphology and organization: Implications for force transmission in ligament and tendon
    • Provenzano, PP, Vanderby, R, Jr., 2006. Collagen fibril morphology and organization: implications for force transmission in ligament and tendon. Matrix Biol 25: 71-84.
    • (2006) Matrix Biol , vol.25 , pp. 71-84
    • Provenzano, P.P.1    Vanderby, Jr.R.2
  • 30
    • 34147192842 scopus 로고    scopus 로고
    • Structural bone allograft combined with genetically engineered mesenchymal stem cells as a novel platform for bone tissue engineering
    • Xie, C, Reynolds, D, Awad, H, et al. 2007. Structural bone allograft combined with genetically engineered mesenchymal stem cells as a novel platform for bone tissue engineering. Tissue Eng 13: 435-445.
    • (2007) Tissue Eng , vol.13 , pp. 435-445
    • Xie, C.1    Reynolds, D.2    Awad, H.3
  • 31
    • 84856446577 scopus 로고    scopus 로고
    • The effects of PHBV electrospun fibers with different diameters and orientations on growth behavior of bone-marrow-derived mesenchymal stem cells
    • Lu, LX, Wang, YY, Mao, X, et al. 2012. The effects of PHBV electrospun fibers with different diameters and orientations on growth behavior of bone-marrow-derived mesenchymal stem cells. Biomed Mater 7: 015002.
    • (2012) Biomed Mater , vol.7 , pp. 015002
    • Lu, L.X.1    Wang, Y.Y.2    Mao, X.3
  • 32
    • 84859404787 scopus 로고    scopus 로고
    • Preparation and characterization of biomimetic silk fibroin/chitosan composite nanofibers by electrospinning for osteoblasts culture
    • Chen, JP, Chen, SH, Lai, GJ., 2012. Preparation and characterization of biomimetic silk fibroin/chitosan composite nanofibers by electrospinning for osteoblasts culture. Nanoscale Res Lett 7: 170.
    • (2012) Nanoscale Res Lett , vol.7 , pp. 170
    • Chen, J.P.1    Chen, S.H.2    Lai, G.J.3
  • 33
    • 79955870419 scopus 로고    scopus 로고
    • Preparation and characterization of composite nanofibers of polycaprolactone and nanohydroxyapatite for osteogenic differentiation of mesenchymal stem cells
    • Chen, JP, Chang, YS., 2011. Preparation and characterization of composite nanofibers of polycaprolactone and nanohydroxyapatite for osteogenic differentiation of mesenchymal stem cells. Colloids Surf B, Biointerfaces 86: 169-175.
    • (2011) Colloids Surf B, Biointerfaces , vol.86 , pp. 169-175
    • Chen, J.P.1    Chang, Y.S.2
  • 34
    • 70350502204 scopus 로고    scopus 로고
    • Effect of fiber diameter and alignment of electrospun polyurethane meshes on mesenchymal progenitor cells
    • Bashur, CA, Shaffer, RD, Dahlgren, LA, et al. 2009. Effect of fiber diameter and alignment of electrospun polyurethane meshes on mesenchymal progenitor cells. Tissue Eng Part A 15: 2435-2445.
    • (2009) Tissue Eng Part A , vol.15 , pp. 2435-2445
    • Bashur, C.A.1    Shaffer, R.D.2    Dahlgren, L.A.3
  • 35
    • 26844561981 scopus 로고    scopus 로고
    • Effect of fiber diameter on spreading, proliferation, and differentiation of osteoblastic cells on electrospun poly(lactic acid) substrates
    • Badami, AS, Kreke, MR, Thompson, MS, et al. 2006. Effect of fiber diameter on spreading, proliferation, and differentiation of osteoblastic cells on electrospun poly(lactic acid) substrates. Biomaterials 27: 596-606.
    • (2006) Biomaterials , vol.27 , pp. 596-606
    • Badami, A.S.1    Kreke, M.R.2    Thompson, M.S.3
  • 36
    • 78650861025 scopus 로고    scopus 로고
    • Osteogenic differentiation of marrow stromal cells on random and aligned electrospun poly(l -lactide) nanofibers
    • Ma, J, He, X, Jabbari, E., 2011. Osteogenic differentiation of marrow stromal cells on random and aligned electrospun poly(l -lactide) nanofibers. Ann Biomed Eng 39: 14-25.
    • (2011) Ann Biomed Eng , vol.39 , pp. 14-25
    • Ma, J.1    He, X.2    Jabbari, E.3
  • 37
    • 0034918106 scopus 로고    scopus 로고
    • In vivo measurement of gene expression, angiogenesis and physiological function in tumors using multiphoton laser scanning microscopy
    • Brown, EB, Campbell, RB, Tsuzuki, Y, et al. 2001. In vivo measurement of gene expression, angiogenesis and physiological function in tumors using multiphoton laser scanning microscopy. Nat Med 7: 864-868.
    • (2001) Nat Med , vol.7 , pp. 864-868
    • Brown, E.B.1    Campbell, R.B.2    Tsuzuki, Y.3
  • 38
    • 2342527246 scopus 로고    scopus 로고
    • Measurement of macromolecular diffusion coefficients in human tumors
    • Brown, EB, Boucher, Y, Nasser, S, et al. 2004. Measurement of macromolecular diffusion coefficients in human tumors. Microvasc Res 67: 231-236.
    • (2004) Microvasc Res , vol.67 , pp. 231-236
    • Brown, E.B.1    Boucher, Y.2    Nasser, S.3
  • 39
    • 0038578294 scopus 로고    scopus 로고
    • Dynamic imaging of collagen and its modulation in tumors in vivo using second-harmonic generation
    • Brown, E, McKee, T, diTomaso, E, et al. 2003. Dynamic imaging of collagen and its modulation in tumors in vivo using second-harmonic generation. Nat Med 9: 796-800.
    • (2003) Nat Med , vol.9 , pp. 796-800
    • Brown, E.1    McKee, T.2    Ditomaso, E.3
  • 40
    • 39049137329 scopus 로고    scopus 로고
    • Second harmonic properties of tumor collagen: Determining the structural relationship between reactive stroma and healthy stroma
    • Han, X, Burke, RM, Zettel, ML, et al. 2008. Second harmonic properties of tumor collagen: determining the structural relationship between reactive stroma and healthy stroma. Opt Expr 16: 1846-1859.
    • (2008) Opt Expr , vol.16 , pp. 1846-1859
    • Han, X.1    Burke, R.M.2    Zettel, M.L.3
  • 41
    • 0345059766 scopus 로고    scopus 로고
    • Intravital imaging of cell movement in tumours
    • Condeelis, J, Segall, JE., 2003. Intravital imaging of cell movement in tumours. Nat Rev Cancer 3: 921-930.
    • (2003) Nat Rev Cancer , vol.3 , pp. 921-930
    • Condeelis, J.1    Segall, J.E.2
  • 42
    • 33846293595 scopus 로고    scopus 로고
    • Probing the microenvironment of mammary tumors using multiphoton microscopy
    • Sidani, M, Wyckoff, J, Xue, C, et al. 2006. Probing the microenvironment of mammary tumors using multiphoton microscopy. J Mammary Gland Biol Neoplasia 11: 151-163.
    • (2006) J Mammary Gland Biol Neoplasia , vol.11 , pp. 151-163
    • Sidani, M.1    Wyckoff, J.2    Xue, C.3
  • 43
    • 0036828286 scopus 로고    scopus 로고
    • Single cell behavior in metastatic primary mammary tumors correlated with gene expression patterns revealed by molecular profiling
    • Wang, W, Wyckoff, JB, Frohlich, VC, et al. 2002. Single cell behavior in metastatic primary mammary tumors correlated with gene expression patterns revealed by molecular profiling. Cancer Res 62: 6278-6288.
    • (2002) Cancer Res , vol.62 , pp. 6278-6288
    • Wang, W.1    Wyckoff, J.B.2    Frohlich, V.C.3
  • 44
    • 77955498570 scopus 로고    scopus 로고
    • Aligned electrospun polymer fibres for skeletal muscle regeneration
    • Aviss, KJ, Gough, JE, Downes, S., 2010. Aligned electrospun polymer fibres for skeletal muscle regeneration. Eur Cell Mater 19: 193-204.
    • (2010) Eur Cell Mater , vol.19 , pp. 193-204
    • Aviss, K.J.1    Gough, J.E.2    Downes, S.3
  • 45
    • 77956458277 scopus 로고    scopus 로고
    • Guidance of neurite outgrowth on aligned electrospun polypyrrole/ poly(styrene-beta-isobutylene-beta-styrene) fiber platforms
    • Liu, X, Chen, J, Gilmore, KJ, et al. 2010. Guidance of neurite outgrowth on aligned electrospun polypyrrole/poly(styrene-beta-isobutylene-beta-styrene) fiber platforms. J Biomed Mater Res A 94: 1004-1011.
    • (2010) J Biomed Mater Res A , vol.94 , pp. 1004-1011
    • Liu, X.1    Chen, J.2    Gilmore, K.J.3
  • 46
    • 67650128152 scopus 로고    scopus 로고
    • Review paper: A review of the cellular response on electrospun nanofibers for tissue engineering
    • Nisbet, DR, Forsythe, JS, Shen, W, et al. 2009. Review paper: a review of the cellular response on electrospun nanofibers for tissue engineering. J Biomater Appl 24: 7-29.
    • (2009) J Biomater Appl , vol.24 , pp. 7-29
    • Nisbet, D.R.1    Forsythe, J.S.2    Shen, W.3
  • 47
    • 78649636406 scopus 로고    scopus 로고
    • Impact of Scaffold micro and macro architecture on Schwann cell proliferation under dynamic conditions in a rotating wall vessel bioreactor
    • Valmikinathan, CM, Hoffman, J, Yu, X., 2011. Impact of Scaffold micro and macro architecture on Schwann cell proliferation under dynamic conditions in a rotating wall vessel bioreactor. Mater Sci Eng C Mater Biol Appl 31: 22-29.
    • (2011) Mater Sci Eng C Mater Biol Appl , vol.31 , pp. 22-29
    • Valmikinathan, C.M.1    Hoffman, J.2    Yu, X.3
  • 48
    • 70349934306 scopus 로고    scopus 로고
    • Engineering substrate topography at the micro- and nanoscale to control cell function
    • Bettinger, CJ, Langer, R, Borenstein, JT., 2009. Engineering substrate topography at the micro- and nanoscale to control cell function. Angew Chem Int Ed Engl 48: 5406-5415.
    • (2009) Angew Chem Int Ed Engl , vol.48 , pp. 5406-5415
    • Bettinger, C.J.1    Langer, R.2    Borenstein, J.T.3
  • 49
    • 3242762318 scopus 로고    scopus 로고
    • Osteoblast alignment, elongation and migration on grooved polystyrene surfaces patterned by Langmuir-Blodgett lithography
    • Lenhert, S, Meier, MB, Meyer, U, et al. 2005. Osteoblast alignment, elongation and migration on grooved polystyrene surfaces patterned by Langmuir-Blodgett lithography. Biomaterials 26: 563-570.
    • (2005) Biomaterials , vol.26 , pp. 563-570
    • Lenhert, S.1    Meier, M.B.2    Meyer, U.3
  • 50
    • 0034102179 scopus 로고    scopus 로고
    • Alignment and proliferation of MC3T3-E1 osteoblasts in microgrooved silicone substrata subjected to cyclic stretching
    • Wang, JH, Grood, ES, Florer, J, et al. 2000. Alignment and proliferation of MC3T3-E1 osteoblasts in microgrooved silicone substrata subjected to cyclic stretching. J Biomech 33: 729-735.
    • (2000) J Biomech , vol.33 , pp. 729-735
    • Wang, J.H.1    Grood, E.S.2    Florer, J.3
  • 51
    • 79961001718 scopus 로고    scopus 로고
    • Modulation of alignment, elongation and contraction of cardiomyocytes through a combination of nanotopography and rigidity of substrates
    • Wang, PY, Yu, J, Lin, JH, et al. 2011. Modulation of alignment, elongation and contraction of cardiomyocytes through a combination of nanotopography and rigidity of substrates. Acta Biomater 7: 3285-3293.
    • (2011) Acta Biomater , vol.7 , pp. 3285-3293
    • Wang, P.Y.1    Yu, J.2    Lin, J.H.3
  • 52
    • 84857838678 scopus 로고    scopus 로고
    • Spatial arrangement of polycaprolactone/collagen nanofiber scaffolds regulates the wound healing related behaviors of human adipose stromal cells
    • Fu, X, Wang, H., 2012. Spatial arrangement of polycaprolactone/collagen nanofiber scaffolds regulates the wound healing related behaviors of human adipose stromal cells. Tissue Eng Part A 18: 631-642.
    • (2012) Tissue Eng Part A , vol.18 , pp. 631-642
    • Fu, X.1    Wang, H.2
  • 53
    • 77957291993 scopus 로고    scopus 로고
    • Radially aligned, electrospun nanofibers as dural substitutes for wound closure and tissue regeneration applications
    • Xie, J, Macewan, MR, Ray, WZ, et al. 2010. Radially aligned, electrospun nanofibers as dural substitutes for wound closure and tissue regeneration applications. ACS Nano 4: 5027-5036.
    • (2010) ACS Nano , vol.4 , pp. 5027-5036
    • Xie, J.1    Macewan, M.R.2    Ray, W.Z.3
  • 54
    • 30744473240 scopus 로고    scopus 로고
    • Chitosan bicomponent nanofibers and nanoporous fibers
    • Li, L, Hsieh, YL., 2006. Chitosan bicomponent nanofibers and nanoporous fibers. Carbohydr Res 341: 374-381.
    • (2006) Carbohydr Res , vol.341 , pp. 374-381
    • Li, L.1    Hsieh, Y.L.2
  • 55
    • 84856139606 scopus 로고    scopus 로고
    • Extracellular matrix deposited by synovium-derived stem cells delays replicative senescent chondrocyte dedifferentiation and enhances redifferentiation
    • Pei, M, He, F., 2012. Extracellular matrix deposited by synovium-derived stem cells delays replicative senescent chondrocyte dedifferentiation and enhances redifferentiation. J Cell Physiol 227: 2163-2174.
    • (2012) J Cell Physiol , vol.227 , pp. 2163-2174
    • Pei, M.1    He, F.2
  • 56
    • 82355164094 scopus 로고    scopus 로고
    • Expansion on extracellular matrix deposited by human bone marrow stromal cells facilitates stem cell proliferation and tissue-specific lineage potential
    • Pei, M, He, F, Kish, VL., 2011. Expansion on extracellular matrix deposited by human bone marrow stromal cells facilitates stem cell proliferation and tissue-specific lineage potential. Tissue Eng Part A 17: 3067-3076.
    • (2011) Tissue Eng Part A , vol.17 , pp. 3067-3076
    • Pei, M.1    He, F.2    Kish, V.L.3
  • 57
    • 68549101526 scopus 로고    scopus 로고
    • Multiple factor interactions in biomimetic mineralization of electrospun scaffolds
    • Madurantakam, PA, Rodriguez, IA, Cost, CP, et al. 2009. Multiple factor interactions in biomimetic mineralization of electrospun scaffolds. Biomaterials 30: 5456-5464.
    • (2009) Biomaterials , vol.30 , pp. 5456-5464
    • Madurantakam, P.A.1    Rodriguez, I.A.2    Cost, C.P.3
  • 58
    • 40649127864 scopus 로고    scopus 로고
    • The potential to improve cell infiltration in composite fiber-aligned electrospun scaffolds by the selective removal of sacrificial fibers
    • Baker, BM, Gee, AO, Metter, RB, et al. 2008. The potential to improve cell infiltration in composite fiber-aligned electrospun scaffolds by the selective removal of sacrificial fibers. Biomaterials 29: 2348-2358.
    • (2008) Biomaterials , vol.29 , pp. 2348-2358
    • Baker, B.M.1    Gee, A.O.2    Metter, R.B.3
  • 59
    • 84860778997 scopus 로고    scopus 로고
    • Fabrication of patterned nanofibrous mats using direct-write electrospinning
    • Lee, J, Lee, SY, Jang, J, et al. 2012. Fabrication of patterned nanofibrous mats using direct-write electrospinning. Langmuir 28: 7267-7275.
    • (2012) Langmuir , vol.28 , pp. 7267-7275
    • Lee, J.1    Lee, S.Y.2    Jang, J.3
  • 60
    • 60049100244 scopus 로고    scopus 로고
    • Nanostructured biocomposite substrates by electrospinning and electrospraying for the mineralization of osteoblasts
    • Gupta, D, Venugopal, J, Mitra, S, et al. 2009. Nanostructured biocomposite substrates by electrospinning and electrospraying for the mineralization of osteoblasts. Biomaterials 30: 2085-2094.
    • (2009) Biomaterials , vol.30 , pp. 2085-2094
    • Gupta, D.1    Venugopal, J.2    Mitra, S.3
  • 61
    • 78650294679 scopus 로고    scopus 로고
    • Cell infiltration and growth in a low density, uncompressed three-dimensional electrospun nanofibrous scaffold
    • Blakeney, BA, Tambralli, A, Anderson, JM, et al. 2011. Cell infiltration and growth in a low density, uncompressed three-dimensional electrospun nanofibrous scaffold. Biomaterials 32: 1583-1590.
    • (2011) Biomaterials , vol.32 , pp. 1583-1590
    • Blakeney, B.A.1    Tambralli, A.2    Anderson, J.M.3
  • 62
    • 84858978170 scopus 로고    scopus 로고
    • Fabrication of large pores in electrospun nanofibrous scaffolds for cellular infiltration: A review
    • Zhong, S, Zhang, Y, Lim, CT., 2012. Fabrication of large pores in electrospun nanofibrous scaffolds for cellular infiltration: a review. Tissue Eng Part B Rev 18: 77-87.
    • (2012) Tissue Eng Part B Rev , vol.18 , pp. 77-87
    • Zhong, S.1    Zhang, Y.2    Lim, C.T.3
  • 63
    • 84876221341 scopus 로고    scopus 로고
    • Nanospiderwebs: Artificial 3D extracellular matrix from nanofibers by novel clinical grade electrospinning for stem cell delivery
    • [Epub ahead of print].
    • Alamein, MA, Liu, Q, Stephens, S, et al. 2012. Nanospiderwebs: artificial 3D extracellular matrix from nanofibers by novel clinical grade electrospinning for stem cell delivery. Adv Healthc Mater [Epub ahead of print].
    • (2012) Adv Healthc Mater
    • Alamein, M.A.1    Liu, Q.2    Stephens, S.3


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