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Human adipose-derived stem cells

Fig. 4 Insert Representative macroscopic image of an APNP hydrogel scaffold seeded with human adipose-derived stem cells following 7 days of culture in a 12-well plate. Graph Osmotic swelling pressure profile of APNP hydrogel scaffolds (green-squares) compared to human NP (orange-triangles and red-diamonds) values found in the literature [28]... Fig. 4 Insert Representative macroscopic image of an APNP hydrogel scaffold seeded with human adipose-derived stem cells following 7 days of culture in a 12-well plate. Graph Osmotic swelling pressure profile of APNP hydrogel scaffolds (green-squares) compared to human NP (orange-triangles and red-diamonds) values found in the literature [28]...
Yoon, E., Dhar, S., Chun, D. E., Gharibjanian, N. A., Evans, G. R. In vivo osteogenic potential of human adipose-derived stem cells/poly lactide-co-glycolic acid constructs for bone regeneration in arat critical-sized calvarial defect model. Tissue Engineering. 2007,13, 619-627. [Pg.931]

N. Mahmoudifar, P.M. Doran, Chondrogenic differentiation of human adipose-derived stem cells in polyglycolic acid mesh scaffolds under dynamic culture conditions. Biomaterials 31 (2010) 3858-3867, doi 10.1016/j.biomaterials.2010.01.090. [Pg.179]

A.E. Turner, C. Yu, J. Bianco, J.F. Watkins, L.E. Flynn, The performance of decellularized adipose tissue microcarrio s as an inductive substrate for human adipose-derived stem cells. Biomaterials 33 (2012)4490-4499. [Pg.242]

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]

Frohlich, M., Grayson, W.L., Marolt, D., Gimble, J.M., Kregar-Velikonja, N., Vunjak-Novakovic, G., 2010. Bone grafts engineered from human adipose-derived stem cells in perfusion bioreactor culture. Tissue Eng. Part A 16,179-189. [Pg.77]

F. (2012) Alginate and alginate/gelatin micro-spheres for human adipose-derived stem cell encapsulation and differentiation. Biofabrication, 4, 025007. [Pg.297]

Haslauer CM, Moghe AK, Osborne JA, Gupta BS and Loboa EG, CoUagen-PCL sheath-core bicomponent electrospun scaffolds increase osteogenic differentiation and calcium accretion of human adipose-derived stem cells , J. Biomater. Sci. Polym. Ed., 2011,22(13), 1695-712. [Pg.273]

Jin, X.B., Sun, Y.S., Zhang, K., Wang, J., Shi, T.P., Ju, X.D., et al., 2008. Tissue engineered cartilage from hTGF beta 2 transduced human adipose derived stem cells seeded in PLGA/ alginate compound in vitro and in vivo. Journal of Biomedical Materials Research A 86A (4), 1077-1087. [Pg.406]

Qu X, et al. Relative impact of uniaxial ahgnment vs. form-induced stress on differentiation of human adipose derived stem cells. Biomaterials 2013 34 9812-8. [Pg.204]

Altman AM, Matthias N, Yan Y, Song YH, Bai X, Chiu ES, Slakey DP, Alt EU (2008) Dermal matrix as a carrier for in vivo delivery of human adipose-derived stem cells. Biomaterials 29(10) 1431-1442... [Pg.20]

Altman AM, Yan Y, Matthias N, Bai X, Rios C, Mathur AB, Song YH, Alt EU (2009) Human adipose-derived stem cells seeded on a silk fibroin-chitosan scaffold enhance wound repair in a murine soft tissue injury model. Stem Cells 27 250-258... [Pg.20]

Jiang, T. et al., Potent in vitro chondrogenesis of CD105 enriched human adipose-derived stem cells. Biomaterials, 2010. 31(13) 3564-71. [Pg.617]

Merceron, C. et al.. Differential effects of hypoxia on osteochondrogenic potential of human adipose-derived stem cells. Am Physiol Cell Physiol, 2009. 298(2) C355-64. [Pg.618]

Ye et al. have looked into PHB scaffolds, and worked on the potential of PHB/poly(hydroxybutyrate-co-hydroxyhexanoate) (PHBHHx) (PHB/ PHBHHx) to produce neocartilage upon seeding with differentiated human adipose-derived stem cells (hASCs). The study demonstrated that PHB/ PHBHHx was a suitable material for cartilage tissue engineering. " ... [Pg.378]

Synthesis Synthetic methods Staining Applications Bacteria human adipose-derived stem cells multipotent adult progenitor cells parasite lips skin hairs keratin fibers ... [Pg.10]

Wolbank, S. Peterbauer, A. Wassermann, E. Hennerbichler, S. Voglauer, R. van Griensven, M. Duba, H. C. Gabriel, C. Redl, H. Labelling of human adipose-derived stem cells for non-invasive in vivo cell tracking. Cell Tissue Banking 2007, 8, 163-177. [Pg.11]

Staining Applications Aortic valves cornea verticil-lata f human adipose-derived stem cells intramyocellu-lar lipid lipids " lipid droplets " mitochondria ... [Pg.345]

Buschmann J, Harter L, Gao S, Hemmi S, Welti M, Hild N, et al. Tissue engineered bone grafts based on biomimetic nanocomposite PLGA/amorphous calcium phosphate scaffold and human adipose-derived stem cells. Injury 2012 43(10) 1689-97. [Pg.304]

Aoki, T., Ohnishi, H., Oda, Y. et al. 2010. Generation of induced pluripotent stem cells from human adipose-derived stem cells without c-MYC. Tissue Eng Part A 16 2197-206. [Pg.752]

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Adipose

Adipose cells

Adipose stem cells

Adipose-derived stem cells

Human adipose-derived stem cells hASCs)

Human stem cells

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