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Items: 1 to 20 of 86

1.

Spheroids from adipose-derived stem cells exhibit an miRNA profile of highly undifferentiated cells.

Di Stefano AB, Grisafi F, Castiglia M, Perez A, Montesano L, Gulino A, Toia F, Fanale D, Russo A, Moschella F, Leto Barone AA, Cordova A.

J Cell Physiol. 2018 Nov;233(11):8778-8789. doi: 10.1002/jcp.26785. Epub 2018 May 24.

PMID:
29797571
2.

Short-term spheroid formation enhances the regenerative capacity of adipose-derived stem cells by promoting stemness, angiogenesis, and chemotaxis.

Cheng NC, Chen SY, Li JR, Young TH.

Stem Cells Transl Med. 2013 Aug;2(8):584-94. doi: 10.5966/sctm.2013-0007. Epub 2013 Jul 11.

3.

Enhanced Adipogenic Differentiation of Human Adipose-Derived Stem Cells in an In Vitro Microenvironment: The Preparation of Adipose-Like Microtissues Using a Three-Dimensional Culture.

Miyamoto Y, Ikeuchi M, Noguchi H, Yagi T, Hayashi S.

Cell Med. 2016 Sep 14;9(1-2):35-44. doi: 10.3727/215517916X693096. eCollection 2017 Jan 8.

4.

The influence of spheroid formation of human adipose-derived stem cells on chitosan films on stemness and differentiation capabilities.

Cheng NC, Wang S, Young TH.

Biomaterials. 2012 Feb;33(6):1748-58. doi: 10.1016/j.biomaterials.2011.11.049. Epub 2011 Dec 9.

PMID:
22153870
5.

Ultrasound-Assisted Liposuction Does Not Compromise the Regenerative Potential of Adipose-Derived Stem Cells.

Duscher D, Atashroo D, Maan ZN, Luan A, Brett EA, Barrera J, Khong SM, Zielins ER, Whittam AJ, Hu MS, Walmsley GG, Pollhammer MS, Schmidt M, Schilling AF, Machens HG, Huemer GM, Wan DC, Longaker MT, Gurtner GC.

Stem Cells Transl Med. 2016 Feb;5(2):248-57. doi: 10.5966/sctm.2015-0064. Epub 2015 Dec 23.

6.

Effect of anatomical origin and cell passage number on the stemness and osteogenic differentiation potential of canine adipose-derived stem cells.

Requicha JF, Viegas CA, Albuquerque CM, Azevedo JM, Reis RL, Gomes ME.

Stem Cell Rev. 2012 Dec;8(4):1211-22. doi: 10.1007/s12015-012-9397-0.

PMID:
22773405
7.

Gene expression profiles of human subcutaneous and visceral adipose-derived stem cells.

Kim B, Lee B, Kim MK, Gong SP, Park NH, Chung HH, Kim HS, No JH, Park WY, Park AK, Lim JM, Song YS.

Cell Biochem Funct. 2016 Dec;34(8):563-571. doi: 10.1002/cbf.3228. Epub 2016 Nov 17.

PMID:
27859461
8.

Decellularized adipose tissue microcarriers as a dynamic culture platform for human adipose-derived stem/stromal cell expansion.

Yu C, Kornmuller A, Brown C, Hoare T, Flynn LE.

Biomaterials. 2017 Mar;120:66-80. doi: 10.1016/j.biomaterials.2016.12.017. Epub 2016 Dec 23.

PMID:
28038353
9.

Function of microRNAs in the Osteogenic Differentiation and Therapeutic Application of Adipose-Derived Stem Cells (ASCs).

Hodges WM, O'Brien F, Fulzele S, Hamrick MW.

Int J Mol Sci. 2017 Dec 2;18(12). pii: E2597. doi: 10.3390/ijms18122597. Review.

10.

Stemness and osteogenic and adipogenic potential are differently impaired in subcutaneous and visceral adipose derived stem cells (ASCs) isolated from obese donors.

De Girolamo L, Stanco D, Salvatori L, Coroniti G, Arrigoni E, Silecchia G, Russo MA, Niada S, Petrangeli E, Brini AT.

Int J Immunopathol Pharmacol. 2013 Jan-Mar;26(1 Suppl):11-21.

PMID:
24046945
11.

Distinct stem cells subpopulations isolated from human adipose tissue exhibit different chondrogenic and osteogenic differentiation potential.

Rada T, Reis RL, Gomes ME.

Stem Cell Rev. 2011 Mar;7(1):64-76. doi: 10.1007/s12015-010-9147-0.

PMID:
20396979
12.

The role of miR-31-modified adipose tissue-derived stem cells in repairing rat critical-sized calvarial defects.

Deng Y, Zhou H, Zou D, Xie Q, Bi X, Gu P, Fan X.

Biomaterials. 2013 Sep;34(28):6717-28. doi: 10.1016/j.biomaterials.2013.05.042. Epub 2013 Jun 13.

PMID:
23768901
13.

Alteration of gene expression levels during osteogenic induction of human adipose derived stem cells in long-term culture.

Safwani WK, Makpol S, Sathapan S, Chua KH.

Cell Tissue Bank. 2013 Jun;14(2):289-301. doi: 10.1007/s10561-012-9309-1. Epub 2012 Apr 5.

PMID:
22476937
14.

Regulatory role of microRNAs in the proliferation and differentiation of adipose-derived stem cells.

Kim DY, Sung JH.

Histol Histopathol. 2017 Jan;32(1):1-10. doi: 10.14670/HH-11-798. Epub 2016 Jul 4. Review.

PMID:
27374819
15.

Characterization of human adult stem-cell populations isolated from visceral and subcutaneous adipose tissue.

Baglioni S, Francalanci M, Squecco R, Lombardi A, Cantini G, Angeli R, Gelmini S, Guasti D, Benvenuti S, Annunziato F, Bani D, Liotta F, Francini F, Perigli G, Serio M, Luconi M.

FASEB J. 2009 Oct;23(10):3494-505. doi: 10.1096/fj.08-126946. Epub 2009 Jul 7.

PMID:
19584303
16.

Stromal stem cells from adipose tissue and bone marrow of age-matched female donors display distinct immunophenotypic profiles.

Pachón-Peña G, Yu G, Tucker A, Wu X, Vendrell J, Bunnell BA, Gimble JM.

J Cell Physiol. 2011 Mar;226(3):843-51. doi: 10.1002/jcp.22408.

17.

Leporine-derived adipose precursor cells exhibit in vitro osteogenic potential.

Dudas JR, Losee JE, Penascino VM, Smith DM, Cooper GM, Mooney MP, Jiang S, Rubin JP, Marra KG.

J Craniofac Surg. 2008 Mar;19(2):360-8. doi: 10.1097/SCS.0b013e318163e17b.

PMID:
18362712
18.

The effects of hypoxia and serum-free conditions on the stemness properties of human adipose-derived stem cells.

Wan Safwani WK, Wong CW, Yong KW, Choi JR, Mat Adenan NA, Omar SZ, Wan Abas WA, Pingguan-Murphy B.

Cytotechnology. 2016 Oct;68(5):1859-72. doi: 10.1007/s10616-015-9939-9. Epub 2016 Jan 4.

19.

Adipose tissue-derived mesenchymal stem cells and platelet-rich plasma: stem cell transplantation methods that enhance stemness.

Tobita M, Tajima S, Mizuno H.

Stem Cell Res Ther. 2015 Nov 5;6:215. doi: 10.1186/s13287-015-0217-8. Review.

20.

Effect of hypoxia on the proliferation of porcine bone marrow-derived mesenchymal stem cells and adipose-derived mesenchymal stem cells in 2- and 3-dimensional culture.

Burian E, Probst F, Palla B, Riedel C, Saller MM, Cornelsen M, König F, Schieker M, Otto S.

J Craniomaxillofac Surg. 2017 Mar;45(3):414-419. doi: 10.1016/j.jcms.2016.12.014. Epub 2016 Dec 20.

PMID:
28110999

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