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Differentiation of mesenchymal stem

This review provides an introduction to the different methods utilized for the fabrication of nanostructures, the different kinds of nanotopographies, and the major stem cell types studied in the field of tissue regeneration. Emphasis is given to the attachment and differentiation of mesenchymal stem cells (MSCs), embryonic stem cells (ESCs), and adipose-derived stem cells (ADSCs) on biomimetic nanomaterials for advancing the field of bone, cartilage, cardiac, nerve, and skin tissue regeneration. [Pg.23]

Figure 11.3-4. Multilineage differentiation of mesenchymal stem cells. Mesenchymal stem cells (MSCs) have the ability to differentiate into all types of cells of connective tissue. (This figure is available in full color at ftp //ftp.wiley.com/public/scLtech med/ pharmaceutical biotech/.)... Figure 11.3-4. Multilineage differentiation of mesenchymal stem cells. Mesenchymal stem cells (MSCs) have the ability to differentiate into all types of cells of connective tissue. (This figure is available in full color at ftp //ftp.wiley.com/public/scLtech med/ pharmaceutical biotech/.)...
Gang E J, Jeong J A, Hong S H, et al. (2004). Skeletal myogenic differentiation of mesenchymal stem cells isolated from human umbilical cord blood. Stem Cells. 22 617-624. [Pg.1360]

Prante C, Bieback K, Fiinke C, Schon S, Kern S, Kuhn J, Gastens M, Kleesiek K, Getting C. The formation of extracellular matrix during chondro-genic differentiation of mesenchymal stem cells correlates with increased levels of xylosyltransferase I. Stem Cells 2006 24 2252-2261. [Pg.220]

Varghese, S., Hwang, N. S., Canver, A. C., Theprungsirikul, P., Lin, D. W., Elisseeff, J. Chondroitin sulfate based niches for chondrogenic differentiation of mesenchymal stem cells. Matrix Biology. 2008, 27, 12-21. [Pg.929]

S. Varghese, N.S. Hwang, A.C. Canver, P. Theprungsirikul, D.W. Lin, J. Elisseeff, Chondroitin sulfate based niches for chon-drogenic differentiation of mesenchymal stem cells, Matrix Biol. 27(1) (2008) 12-21. [Pg.87]

The one pot reaction of amino acids with diethylphosphite and formaldehyde has yielded iV,A -bis(phosphonomethyl)aminoadds (521) (Scheme 137). Biological evaluation on the adipogenic and osteogenic differentiation of mesenchymal stem cells revealed no modification of the adipocyte differentiation, but inhibition of osteoblast formation at concentrations without detectable cytotoxicity. ... [Pg.277]

Muller, P., Bulnheim, U., Diener, A., Luthen, F., Teller, M., Klinkenberg, E.D., Neumann, H.G., Nebe, B., Liebold, A., Steinhoff, G., Rychly, J. Calcium phosphate surfaces promote osteogenic differentiation of mesenchymal stem cells. J. Cell. Mol. Med. 12, 281-291 (2008)... [Pg.121]

Vines, J.B., Lim, D.J., Anderson, J.M., Jun, H.W. Hydroxyapatite nanoparticle reinforced peptide amphiphile nanomatrix enhances the osteogenic differentiation of mesenchymal stem cells by compositional ratios. Acta Biomater. 8, 4053-4063 (2012)... [Pg.121]

Kilian KA, Bugarija B, Lahn BT, Mrksich M (2010) Geometric cues for directing the differentiation of mesenchymal stem cells. Proc Natl Acad Sci U S A 107(11) 4872-4877... [Pg.1284]

Liu YK, Lu QZ, Pei R, Ji HJ, Zhou GS, Zhao XL, et al. The effect of extracellular calcium and inorganic phosphate on the growth and osteogenic differentiation of mesenchymal stem cells in vitro imphcation for hone tissue engineering. Biomed Mater 2009 4 025004. [Pg.73]

Hosseinkhani H, Hosseinkhani M, Tian F, Kobayashi H, Tabata Y. Osteogenic differentiation of mesenchymal stem cells in self-assembled peptide-amphiphile nanofibers. Biomaterials 2006 27 4079-86. [Pg.94]

Hashimoto, Y, Funamoto, S., Kimura, T., Nam, K., Fujisato, T., Kishida, A., 2011. The effect of decellularized bone/bone marrow produced by high-hydrostatic pressurization on the osteogenic differentiation of mesenchymal stem cells. Biomaterials 32, 7060-7067. [Pg.78]

Thibault, R.A., Baggett, L.S., Mikos, A.G., Kasper, F.K., 2010. Osteogenic differentiation of mesenchymal stem cells on pregenerated extracellular matrix scaffolds in the absence of osteogenic cell culture supplements. Tissue Eng. Part A 16, 431-440. [Pg.81]

Hosseinkhani H, Hosseinkhani M, Gabrielson NP et al (2008) DNA nanoparticles encapsulated in 3D tissue-engineered scaffolds enhance osteogenic differentiation of mesenchymal stem cells. J Biomed Mater Res A 85 47-60... [Pg.80]

Li J, et al. Surface charge regulation of osteogenic differentiation of mesenchymal stem cell on polarized ferroelectric crystal substrate. Adv Healthc Mater 2015 4(7) 998-1003. [Pg.159]

Jahani H, et al. Controlled surface morphology and hydrophilidty of polycaprolactone toward selective differentiation of mesenchymal stem cells to neural like cells. J Biomed Mater Res A 2015 103(5) 1875-81. [Pg.160]

Wang X, Ye K, Li Z, Yan C, Ding J. Adhesion, prohferation, and differentiation of mesenchymal stem cells on RGD nanopattems of varied nanospacings. Organogenesis 2013 9. [Pg.221]

Castano H, O Rear EA, McFetridge PS, Sikavitsas VI. Polypyrrole thin films formed by admicellar polymerization support the osteogenic differentiation of mesenchymal stem cells. Macromol Biosci 2004 4 785-94. [Pg.222]

Kuo YC, Hung SC, Hsu SH. The effect of elastic biodegradable polyurethane electrospun nanoflbers on the differentiation of mesenchymal stem cells. Colloids Surf B Biointerfaces October 1, 2014 122 414-22. [Pg.111]

Guan, J., Wang, F., Li, Z., Chen, J., Guo, X., Liao, J., Moldovan, N.I., 2011. The stimulation of the cardiac differentiation of mesenchymal stem cells in tissue constructs that mimic myocardium structure and biomechanics. Biomaterials 32, 5568—5580. [Pg.411]

Li ZQ, Guo XL, Guan JJ. A thermosensitive hydrogel capable of releasing bFGF for enhanced differentiation of mesenchymal stem ceU into cardiomyocyte-like cells under ischemic conditions. Biomacromolecules 2012 13 1956-64. [Pg.540]

Teh, T.K., Toh, S.L., Goh, J.C., 2011. Ahgned hybrid silk scaffold for enhanced differentiation of mesenchymal stem cells into ligament fibroblasts. Tissue Eng. Part C Methods 17, 687-703. [Pg.64]

Wang, J.L., Wang, L., Li, X., Mao, C.B., 2013a. Virus activated artificial ECM induces the osteoblastic differentiation of mesenchymal stem cells without osteogenic supplements. Sci. Rep. 3. [Pg.64]

Dvorakova, J., Kucera, L., Kucera, J., Svik, K., Foglarova, M., Muthny, T., Pravda, M., Nemcova, M., Velebny, V., Kubala, L., 2014. Chondrogenic differentiation of mesenchymal stem cells in a hydrogel system based on an enzymatically crosshnked tyramine derivative of hyaluronan. J. Biomed. Mater. Res. A 102, 3523—3530. [Pg.416]

Fan, H., Liu, H., Toh, S., Goh, J., 2008a. Enhanced differentiation of mesenchymal stem cells co-cultured with ligament fibroblasts on gelatin/silk fibroin hybrid scaffold. Biomaterials... [Pg.416]

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