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Nanofiber scaffolding

Semino CE, Kasahara J, Hayashi Y et al (2004) Entrapment of migrating hippocampal neural cells in three-dimensional peptide nanofiber scaffold. Tissue Eng 10 643-655... [Pg.164]

Yokoi H, Kinoshita T, Zhang S. Dynamic reassembly of peptide RADA16 nanofiber scaffold. Proc Natl Acad Sci USA 2005 102 8414-8419. [Pg.393]

Another interesting approach is to use nanofiber scaffolds as a crystallization matrix to mimic biological composites. Xia and coworkers were able to produce meshes with a gradient of calcium phosphate content to mimic the tendon-to-bone insertion site [206], The variation in composition led to an interesting spatial gradient in stiffness of the scaffold. This was also reflected in an activity gradient of seeded mouse preosteoblast cells. [Pg.186]

Stupp, S.I., and Kessler, J.A. Self-Assembling Peptide Amphiphiles Generating Nanofiber Scaffolds for Encapsulation, Growth and Differentiation of Neurons for Therapeutic Uses, 2006-US2354 2006079036 (2006). [Pg.10]

H. Yoshimoto, Y.M. Shin, H. Terai, J.P. Vacanti. 2003. A biodegradable nanofiber scaffold by electrospinning and its potential for bone tissue engineering. Biomaterials, 24. pp. 2077. [Pg.143]

Kim K et al (2003) Control of degradation rate and hydrophilicity in electrospun nonwoven poly (D, L-lactide) nanofiber scaffolds for biomedical applications. Biomaterials 24(27) 4977 985... [Pg.124]

Dong B et al (2009) Electrospinning of collagen nanofiber scaffolds from benign solvents. Macromol Rapid Commun 30(7) 539-542... [Pg.126]

Lee SJ et al (2007) In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application. J Biomed Mater Res A 83(4) 999-1008... [Pg.129]

Chua KN et al (2005) Stable immobilization of rat hepatocyte spheroids on galactosylated nanofiber scaffold. Biomaterials 26(15) 2537-2547... [Pg.209]

Xie JW et al (2010) Aligned-to-random nanofiber scaffolds for mimicking the structure of the tendon-to-bone insertion site. Nanoscale 2(6) 923-926... [Pg.211]

Yeganegi M, Kandel RA, Santerre JP (2010) Characterization of a biodegradable electrospun polyurethane nanofiber scaffold mechanical properties and cytotoxicity. Acta Biomater 6(10) 3847-3855... [Pg.211]

Keywords Antibiotics Biomolecules Cancer Drug delivery Electrospinning Gene delivery Nanofibers Scaffolds Tissue engineering... [Pg.241]

Futhermore, nanofiber scaffold electrodes based on PEDOT for cell stimulation were recently reported by Bolin et al. [87]. Electronically conductive and electrochemically active three-dimensional scaffolds based on electrospun poly(ethylene terephthalate) (PET) nanofibers were prepared. Vapor-phase polymerization was employed to achieve a uniform and conformal coating of poly(3,4-ethylenedioxythiophene) doped with tosylate (PEDOT tosylate) on the nanofibers. The PEDOT coatings had a large impact on the... [Pg.190]

Chua, K.N. Chai, C. Lee, P.C. Ramakrishna, S. Leong, K.W. Mao, H.Q. Fnnctional nanofiber scaffolds with different spacers modnlate adhesion and expansion of cryo preserved nmbilical cord blood hematopoietic stem/progenitor cells. Exp. Hematol. 2007,35 (5), 771-781. [Pg.1330]

Corey JM, Gertz CC, Wang BS, Birrell LK, Johnson SL, Martin DC, Feldman EL (2008) The design of electrospun PLLA nanofiber scaffolds compatible with serum-free growth of primary motor and sensory neurons. Acta Biomaterials 4 863-875 Corley RHV, Gray BS (1976) Yield and yield components In Corley RHV, Hardon JJ, Wood BJ (eds) Oil palm research. Elsevier, Amsterdam, pp 77-86 Cuesta C, Sanchez-Muniz FJ, Hernandez I (1991) Evaluation of nonpolar methyl esters by column and gas chromatography for the assessment of used frying oils. J Am Chem Soc 68 443-445... [Pg.107]

Park K, Ju YM, Son JS, Ahn KD, Han DK (2007) Surface modification of biodegradable elec-trospun nanofiber scaffolds and their interaction with fibroblasts. J Biomater Sci Polym Ed 18 369-382... [Pg.120]

FIGURE 2.2 Fluorescence micrographs of fibroblast cells cultured on PHBV nanofiber scaffolds after 48h of culture. [Pg.37]

T. Liu, J. Xu, B.P. Chan, S.Y. Chew, Sustained release of neurotrophin-3 and chondroitinase ABC from electrospun collagen nanofiber scaffold for spinal c d injury repair, J. Biomed. Mater. Res. A 100 (2012) 236-242. [Pg.63]

Nanofibers mimic the structure of natural ECM closely. Hence, enhanced cellular responses are achieved on electro-spun nanofiber scaffolds. Chitosan nanofibers ranging from several down to a few nanometers have been produced by electrospinning technique [111,112]. [Pg.77]

S. Bhattacharyya, et al.. Biodegradable polyphosphazene-nanohydroxyapatite composite nanofibers scaffolds for bone tissue engineering, J. Biomed. Nanaechnol. 5 (1) (2009) 69-75. [Pg.205]

A. Subramanian, U.M. Krishnan, S. Sethuraman, In vivo biocom-patibihty of PLGA-polyhexylthiophene nanofiber scaffolds in a rat model, Biomed Res. Int. 2013 (2013) 390518. [Pg.308]

S. Kumbar, R. James, S. Nukavarapu, C. Laurencin, Electrospun nanofiber scaffolds engineering soft tissues, Biomed. Mater. 3 (2008) 034002. [Pg.370]

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See also in sourсe #XX -- [ Pg.197 ]



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