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Items: 1 to 20 of 84

1.

Cobalt-containing bioactive glasses reduce human mesenchymal stem cell chondrogenic differentiation despite HIF-1α stabilisation.

Littmann E, Autefage H, Solanki AK, Kallepitis C, Jones JR, Alini M, Peroglio M, Stevens MM.

J Eur Ceram Soc. 2018 Mar;38(3):877-886. doi: 10.1016/j.jeurceramsoc.2017.08.001.

2.

Hypoxia-mimicking mesoporous bioactive glass scaffolds with controllable cobalt ion release for bone tissue engineering.

Wu C, Zhou Y, Fan W, Han P, Chang J, Yuen J, Zhang M, Xiao Y.

Biomaterials. 2012 Mar;33(7):2076-85. doi: 10.1016/j.biomaterials.2011.11.042. Epub 2011 Dec 15.

PMID:
22177618
3.

Flavonoid Compound Icariin Activates Hypoxia Inducible Factor-1α in Chondrocytes and Promotes Articular Cartilage Repair.

Wang P, Zhang F, He Q, Wang J, Shiu HT, Shu Y, Tsang WP, Liang S, Zhao K, Wan C.

PLoS One. 2016 Feb 3;11(2):e0148372. doi: 10.1371/journal.pone.0148372. eCollection 2016.

4.

Hypoxia promotes chondrogenesis in rat mesenchymal stem cells: a role for AKT and hypoxia-inducible factor (HIF)-1alpha.

Kanichai M, Ferguson D, Prendergast PJ, Campbell VA.

J Cell Physiol. 2008 Sep;216(3):708-15. doi: 10.1002/jcp.21446.

PMID:
18366089
5.

Hypoxia-mimicking bioactive glass/collagen glycosaminoglycan composite scaffolds to enhance angiogenesis and bone repair.

Quinlan E, Partap S, Azevedo MM, Jell G, Stevens MM, O'Brien FJ.

Biomaterials. 2015 Jun;52:358-66. doi: 10.1016/j.biomaterials.2015.02.006. Epub 2015 Mar 3.

PMID:
25818442
6.

A chondromimetic microsphere for in situ spatially controlled chondrogenic differentiation of human mesenchymal stem cells.

Ansboro S, Hayes JS, Barron V, Browne S, Howard L, Greiser U, Lalor P, Shannon F, Barry FP, Pandit A, Murphy JM.

J Control Release. 2014 Apr 10;179:42-51. doi: 10.1016/j.jconrel.2014.01.023. Epub 2014 Jan 31.

PMID:
24491910
7.

Hypoxia inducible factor-stabilizing bioactive glasses for directing mesenchymal stem cell behavior.

Azevedo MM, Tsigkou O, Nair R, Jones JR, Jell G, Stevens MM.

Tissue Eng Part A. 2015 Jan;21(1-2):382-9. doi: 10.1089/ten.TEA.2014.0083. Epub 2014 Oct 2.

8.

Spatial regulation of human mesenchymal stem cell differentiation in engineered osteochondral constructs: effects of pre-differentiation, soluble factors and medium perfusion.

Grayson WL, Bhumiratana S, Grace Chao PH, Hung CT, Vunjak-Novakovic G.

Osteoarthritis Cartilage. 2010 May;18(5):714-23. doi: 10.1016/j.joca.2010.01.008. Epub 2010 Feb 6.

9.

Biological Impact of Bioactive Glasses and Their Dissolution Products.

Hoppe A, Boccaccini AR.

Front Oral Biol. 2015;17:22-32. doi: 10.1159/000381690. Epub 2015 Jul 20. Review.

PMID:
26201273
10.

Osteogenic potential of sol-gel bioactive glasses containing manganese.

Barrioni BR, Norris E, Li S, Naruphontjirakul P, Jones JR, Pereira MM.

J Mater Sci Mater Med. 2019 Jul 13;30(7):86. doi: 10.1007/s10856-019-6288-9.

PMID:
31302783
11.

The Hypoxia-Mimetic Agent Cobalt Chloride Differently Affects Human Mesenchymal Stem Cells in Their Chondrogenic Potential.

Teti G, Focaroli S, Salvatore V, Mazzotti E, Ingra' L, Mazzotti A, Falconi M.

Stem Cells Int. 2018 Mar 13;2018:3237253. doi: 10.1155/2018/3237253. eCollection 2018.

12.

Growth factor gradients via microsphere delivery in biopolymer scaffolds for osteochondral tissue engineering.

Wang X, Wenk E, Zhang X, Meinel L, Vunjak-Novakovic G, Kaplan DL.

J Control Release. 2009 Mar 4;134(2):81-90. doi: 10.1016/j.jconrel.2008.10.021. Epub 2008 Nov 17.

13.

Chondrogenesis and mineralization during in vitro culture of human mesenchymal stem cells on three-dimensional woven scaffolds.

Abrahamsson CK, Yang F, Park H, Brunger JM, Valonen PK, Langer R, Welter JF, Caplan AI, Guilak F, Freed LE.

Tissue Eng Part A. 2010 Dec;16(12):3709-18. doi: 10.1089/ten.TEA.2010.0190. Epub 2010 Sep 6.

14.

Hypoxia inducible factor-1alpha deficiency affects chondrogenesis of adipose-derived adult stromal cells.

Malladi P, Xu Y, Chiou M, Giaccia AJ, Longaker MT.

Tissue Eng. 2007 Jun;13(6):1159-71.

PMID:
17518738
16.

Extracellular Calcium Modulates Chondrogenic and Osteogenic Differentiation of Human Adipose-Derived Stem Cells: A Novel Approach for Osteochondral Tissue Engineering Using a Single Stem Cell Source.

Mellor LF, Mohiti-Asli M, Williams J, Kannan A, Dent MR, Guilak F, Loboa EG.

Tissue Eng Part A. 2015 Sep;21(17-18):2323-33. doi: 10.1089/ten.TEA.2014.0572. Epub 2015 Jul 13.

17.

Inkjet-bioprinted acrylated peptides and PEG hydrogel with human mesenchymal stem cells promote robust bone and cartilage formation with minimal printhead clogging.

Gao G, Yonezawa T, Hubbell K, Dai G, Cui X.

Biotechnol J. 2015 Oct;10(10):1568-77. doi: 10.1002/biot.201400635. Epub 2015 Feb 11.

PMID:
25641582
18.

In vitro generation of osteochondral differentiation of human marrow mesenchymal stem cells in novel collagen-hydroxyapatite layered scaffolds.

Zhou J, Xu C, Wu G, Cao X, Zhang L, Zhai Z, Zheng Z, Chen X, Wang Y.

Acta Biomater. 2011 Nov;7(11):3999-4006. doi: 10.1016/j.actbio.2011.06.040. Epub 2011 Jun 30.

PMID:
21757035
19.

Human mesenchymal stem cells: Influence of oxygen pressure on proliferation and chondrogenic differentiation in fibrin glue in vitro.

Baumgartner L, Arnhold S, Brixius K, Addicks K, Bloch W.

J Biomed Mater Res A. 2010 Jun 1;93(3):930-40. doi: 10.1002/jbm.a.32577.

PMID:
19708077
20.

Novel biologically-inspired rosette nanotube PLLA scaffolds for improving human mesenchymal stem cell chondrogenic differentiation.

Childs A, Hemraz UD, Castro NJ, Fenniri H, Zhang LG.

Biomed Mater. 2013 Dec;8(6):065003. doi: 10.1088/1748-6041/8/6/065003. Epub 2013 Nov 14.

PMID:
24225196

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