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Adipose-derived stromal cells

Safford KM, Hicok KC, Safford SD, Halvorsen YD, Wilkison WO, Gimble JM, Rice HE. Neurogenic differentiation of murine and human adipose-derived stromal cells. Biochem Biophys Res Commun 2002 294 371-379. [Pg.124]

W. Jing, et al.. Ectopic adipogenesis of preconditioned adipose-derived stromal cells in an alginate system. Cell Tissue Res. 330 (2007) 567-572. [Pg.240]

L. Hong, LA. Peptan, A. Colpan, J.L. Daw, Adipose tissue engineering by human adipose-derived stromal cells. Cells Tissues Organs 183 (2006) 133-140. [Pg.240]

F. Verseijden, et al.. Comparing scaffold-free and fibrin-based adipose-derived stromal cell constructs for adipose tissue engineering an in vitro and in vivo smdy. Cell Transplant 21 (2012) 2283-2297. [Pg.242]

Adipose-derived stromal cells (ASCs) were seeded onto the PLGA scaffolds and [156] implanted in rat tibial defects. The ASCs/PLGA scaffolds caused near complete healing in tibial defects. The presence of cells accelerated the bone regeneration in comparison to PLGA implanted scaffolds without cells... [Pg.176]

Xu, M., Wang, X., Yan, Y., Yao, R., Ge, Y., 2010. An cell-assembly derived physiological 3D model of the metabolic syndrome, based on adipose-derived stromal cells and a gelatin/ alginate/fibrinogen matrix. Biomaterials 31, 3868—3877. [Pg.361]

Hammerick, K. E., A. W. James et al. 2010. Pulsed direct current electric fields enhance osteogenesis in adipose-derived stromal cells. Tissue Eng Part A 16(3) 917-31. [Pg.453]

Awad, H.A. et al.. Effects of transforming growth factor betal and dexamethasone on the growth and chondrogenic differentiation of adipose-derived stromal cells. Tissue Eng, 2003. 9(6) 1301-12. [Pg.618]

Gronthos S, Franklin DM, Leddy HA, Robey PG, Stroms RW, Gimble JM. Surface protein characterization of human adipose tissue-derived stromal cells. J Cell Physiol 2001 189 54-63. [Pg.125]

Tatrai P, Szepesi A, Mamla Z, Szigeti A, Buchan G, Madi A, Uher E, Nemet K. Combined introduction of Bmi-1 and hTERT immortalizes human adipose tissue-derived stromal cells with low risk of transformation. Biochem Biophys Res Commun. 2012 422 28-35. [Pg.702]

Bovine caipometacarpal joint (trabecular bone) Ethylene diamine tetra-acetic acid (EDTA) + sodium dodecyl sulfate (SDS)+DNase and RNase treatments Human adipose-derived stem cells (ASCs), bone marrow-derived human mesenchymal stromal cells (hMSCs), human embryonic stem cells (ESCs) (ceU line H9), human iPSCs (cell lines 11c, 1013A, and BCI) NA de Peppo et al. (2013), Grayson et al. (2008, 2011), Maroltet al. (2012), FrohUch et al. (2010)... [Pg.68]

Hennig, T, Lorenz, H., Thiel, A. et al. 2007. Reduced chondrogenic potential of adipose tissue derived stromal cells correlates with an altered TGF beta receptor and bmp profile and is overcome by bmp-6. JCellPhysiol 211 682-91. [Pg.549]

Erickson, G.R. et al., Chondrogenic potential of adipose tissue-derived stromal cells in vitro and in vivo. Biochem Biophys Res Commun, 2002. 290(2) 763-9. [Pg.618]

Kang, SK, Shin, MJ, Jung, JS, Kim, YG, and Kim, CH. 2006. Autologous adipose tissue-derived stromal cells for treatment of spinal cord injiuy. Stem Cells Dev 15(4) 583-594. [Pg.720]

Lin Y, Wang T, Wu L, Jing W, Chen X, Li Z, et al. Ectopic and in situ bone formation of adipose tissue-derived stromal cells in biphasic calcium phosphate nanocomposite. J Biomed Mater Res A 2007 81(4) 900-10. [Pg.301]

Kras, K.M., Hausman, D.B., and Martin, R.J. 2000. Tumor necrosis factor-alpha stimulates cell proliferation in adipose tissue-derived stromal-vascular cell culture Promotion of adipose tissue expansion by paracrine growth factors. Obes. Res. 8, 186-193. [Pg.98]

Figure 19.1 Cardiac tissue engineering triad. Schematic representation of the interplay between the components of the cardiac tissue engineering triad. Biomaterials are key components for cardiac tissue engineering applications and play a critical role in this technology. MSC, mesenchymal stem cell ADSC, adipose stem cell iPS, induced pluripotent cell CPC, cardiac progenitor cell VEGF, vascular endothelial growth factor FGF, fibroblast growth factor NRG, neuregulin EPO, erythropoietin HGF, hepatocyte growth factor SDF-1, stromal cell—derived factor 1. Figure 19.1 Cardiac tissue engineering triad. Schematic representation of the interplay between the components of the cardiac tissue engineering triad. Biomaterials are key components for cardiac tissue engineering applications and play a critical role in this technology. MSC, mesenchymal stem cell ADSC, adipose stem cell iPS, induced pluripotent cell CPC, cardiac progenitor cell VEGF, vascular endothelial growth factor FGF, fibroblast growth factor NRG, neuregulin EPO, erythropoietin HGF, hepatocyte growth factor SDF-1, stromal cell—derived factor 1.
Katz, A. J., Tholpady, A., Tholpady, S. S., Shang, H., and Ogle, R. C. 2005. Cell surface and transcriptional characterization of human adipose-derived adherent stromal (hADAS) cells. Stem Cells, 23,412-23. [Pg.188]

Cowan, C., Shi, Y, Aalami, O. et al. 2004. Adipose-derived adult stromal cells heal critical-size mouse calvarial defects. Nat Biotechnol 22 560-7. [Pg.548]

Large cranial defects do not spontaneously heal and pose specific health burden. A study carried out by Cowan et al. (2004) showed the in vivo osteogenic capability of adipose-derived adult stromal (ADAS) cells, bone marrow stromal (BMS) cells, calvarial-derived osteoblasts, and dura mater cells... [Pg.556]

See other pages where Adipose-derived stromal cells is mentioned: [Pg.356]    [Pg.189]    [Pg.159]    [Pg.169]    [Pg.170]    [Pg.40]    [Pg.177]    [Pg.356]    [Pg.189]    [Pg.159]    [Pg.169]    [Pg.170]    [Pg.40]    [Pg.177]    [Pg.113]    [Pg.238]    [Pg.238]    [Pg.12]    [Pg.223]    [Pg.64]    [Pg.552]    [Pg.338]    [Pg.266]    [Pg.589]    [Pg.727]    [Pg.98]    [Pg.135]    [Pg.567]   
See also in sourсe #XX -- [ Pg.40 ]



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