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Items: 1 to 20 of 92

1.

Reprogramming hMSCs morphology with silicon/porous silicon geometric micro-patterns.

Ynsa MD, Dang ZY, Manso-Silvan M, Song J, Azimi S, Wu JF, Liang HD, Torres-Costa V, Punzon-Quijorna E, Breese MB, Garcia-Ruiz JP.

Biomed Microdevices. 2014 Apr;16(2):229-36. doi: 10.1007/s10544-013-9826-0.

PMID:
24305875
2.

Engineering of silicon surfaces at the micro- and nanoscales for cell adhesion and migration control.

Torres-Costa V, Martínez-Muñoz G, Sánchez-Vaquero V, Muñoz-Noval Á, González-Méndez L, Punzón-Quijorna E, Gallach-Pérez D, Manso-Silván M, Climent-Font A, García-Ruiz JP, Martín-Palma RJ.

Int J Nanomedicine. 2012;7:623-30. doi: 10.2147/IJN.S27745. Epub 2012 Feb 3.

3.

Adhesion, spreading and osteogenic differentiation of mesenchymal stem cells cultured on micropatterned amorphous diamond, titanium, tantalum and chromium coatings on silicon.

Myllymaa S, Kaivosoja E, Myllymaa K, Sillat T, Korhonen H, Lappalainen R, Konttinen YT.

J Mater Sci Mater Med. 2010 Jan;21(1):329-41. doi: 10.1007/s10856-009-3836-8. Epub 2009 Aug 5.

PMID:
19655235
4.

Aging of porous silicon in physiological conditions: cell adhesion modes on scaled 1D micropatterns.

Noval AM, Vaquero VS, Quijorna EP, Costa VT, Pérez DG, Méndez LG, Montero I, Palma RJ, Font AC, Ruiz JP, Silván MM.

J Biomed Mater Res A. 2012 Jun;100(6):1615-22. doi: 10.1002/jbm.a.34108. Epub 2012 Mar 23.

PMID:
22447651
5.

Laser fabrication of porous silicon-based platforms for cell culturing.

Peláez RJ, Afonso CN, Vega F, Recio-Sánchez G, Torres-Costa V, Manso-Silván M, García-Ruiz JP, Martín-Palma RJ.

J Biomed Mater Res B Appl Biomater. 2013 Nov;101(8):1463-8. doi: 10.1002/jbm.b.32966.

PMID:
24591224
6.

Effects of pseudowollastonite (CaSiO3) bioceramic on in vitro activity of human mesenchymal stem cells.

Zhang N, Molenda JA, Fournelle JH, Murphy WL, Sahai N.

Biomaterials. 2010 Oct;31(30):7653-65. doi: 10.1016/j.biomaterials.2010.06.043. Epub 2010 Aug 2.

PMID:
20674968
7.

Reorganization of cytoskeleton and transient activation of Ca2+ channels in mesenchymal stem cells cultured on silicon nanowire arrays.

Liu D, Yi C, Wang K, Fong CC, Wang Z, Lo PK, Sun D, Yang M.

ACS Appl Mater Interfaces. 2013 Dec 26;5(24):13295-304. doi: 10.1021/am404276r. Epub 2013 Dec 13.

PMID:
24308382
8.

Nanotopography enhanced mobility determines mesenchymal stem cell distribution on micropatterned semiconductors bearing nanorough areas.

Gallach Pérez D, Punzón Quijorna E, Sanz R, Torres-Costa V, García Ruiz JP, Manso Silván M.

Colloids Surf B Biointerfaces. 2015 Feb 1;126:146-53. doi: 10.1016/j.colsurfb.2014.11.047. Epub 2014 Dec 16.

PMID:
25546837
9.

Regulation of the fate of human mesenchymal stem cells by mechanical and stereo-topographical cues provided by silicon nanowires.

Kuo SW, Lin HI, Ho JH, Shih YR, Chen HF, Yen TJ, Lee OK.

Biomaterials. 2012 Jul;33(20):5013-22. doi: 10.1016/j.biomaterials.2012.03.080. Epub 2012 Apr 17.

PMID:
22513273
10.

A bio-inspired platform to modulate myogenic differentiation of human mesenchymal stem cells through focal adhesion regulation.

Yu H, Tay CY, Pal M, Leong WS, Li H, Li H, Wen F, Leong DT, Tan LP.

Adv Healthc Mater. 2013 Mar;2(3):442-9. doi: 10.1002/adhm.201200142. Epub 2012 Oct 1.

PMID:
23184715
11.

Poly (3-hydroxybutyrate-co-3-hydroxyhexanoate)/collagen hybrid scaffolds for tissue engineering applications.

Lomas AJ, Webb WR, Han J, Chen GQ, Sun X, Zhang Z, El Haj AJ, Forsyth NR.

Tissue Eng Part C Methods. 2013 Aug;19(8):577-85. doi: 10.1089/ten.TEC.2012.0457. Epub 2013 Feb 14.

12.

Response of murine bone marrow-derived mesenchymal stromal cells to dry-etched porous silicon scaffolds.

Hajj-Hassan M, Khayyat-Kholghi M, Wang H, Chodavarapu V, Henderson JE.

J Biomed Mater Res A. 2011 Nov;99(2):269-74. doi: 10.1002/jbm.a.33103. Epub 2011 Aug 19.

PMID:
21858915
13.
14.

Regulation of proliferation and differentiation of human fetal bone cells.

Krattinger N, Applegate LA, Biver E, Pioletti DP, Caverzasio J.

Eur Cell Mater. 2011 Jan 12;21:46-58.

15.

miR-335 orchestrates cell proliferation, migration and differentiation in human mesenchymal stem cells.

Tomé M, López-Romero P, Albo C, Sepúlveda JC, Fernández-Gutiérrez B, Dopazo A, Bernad A, González MA.

Cell Death Differ. 2011 Jun;18(6):985-95. doi: 10.1038/cdd.2010.167. Epub 2010 Dec 17.

16.

Structured three-dimensional co-culture of mesenchymal stem cells with chondrocytes promotes chondrogenic differentiation without hypertrophy.

Cooke ME, Allon AA, Cheng T, Kuo AC, Kim HT, Vail TP, Marcucio RS, Schneider RA, Lotz JC, Alliston T.

Osteoarthritis Cartilage. 2011 Oct;19(10):1210-8. doi: 10.1016/j.joca.2011.07.005. Epub 2011 Jul 23.

17.

Stem cell-derived extracellular matrix enables survival and multilineage differentiation within superporous hydrogels.

Köllmer M, Keskar V, Hauk TG, Collins JM, Russell B, Gemeinhart RA.

Biomacromolecules. 2012 Apr 9;13(4):963-73. doi: 10.1021/bm300332w. Epub 2012 Mar 22.

18.

Gene expression profiling of human mesenchymal stem cells for identification of novel markers in early- and late-stage cell culture.

Tanabe S, Sato Y, Suzuki T, Suzuki K, Nagao T, Yamaguchi T.

J Biochem. 2008 Sep;144(3):399-408. doi: 10.1093/jb/mvn082. Epub 2008 Jun 11.

PMID:
18550633
19.

Mesenchymal stem cells stimulate protective genetic reprogramming of injured cardiac ventricular myocytes.

Rogers TB, Pati S, Gaa S, Riley D, Khakoo AY, Patel S, Wardlow RD 2nd, Frederick CA, Hall G, He LP, Lederer WJ.

J Mol Cell Cardiol. 2011 Feb;50(2):346-56. doi: 10.1016/j.yjmcc.2010.09.001. Epub 2010 Sep 15.

PMID:
20837021
20.

Using the quantum cell expansion system for the automated expansion of clinical-grade bone marrow-derived human mesenchymal stromal cells.

Martin-Manso G, Hanley PJ.

Methods Mol Biol. 2015;1283:53-63. doi: 10.1007/7651_2014_164.

PMID:
25523809
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