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Items: 1 to 20 of 215

1.

Mesenchymal stem cells from human umbilical cord express preferentially secreted factors related to neuroprotection, neurogenesis, and angiogenesis.

Hsieh JY, Wang HW, Chang SJ, Liao KH, Lee IH, Lin WS, Wu CH, Lin WY, Cheng SM.

PLoS One. 2013 Aug 22;8(8):e72604. doi: 10.1371/journal.pone.0072604. eCollection 2013.

2.

Functional module analysis reveals differential osteogenic and stemness potentials in human mesenchymal stem cells from bone marrow and Wharton's jelly of umbilical cord.

Hsieh JY, Fu YS, Chang SJ, Tsuang YH, Wang HW.

Stem Cells Dev. 2010 Dec;19(12):1895-910. doi: 10.1089/scd.2009.0485. Epub 2010 Oct 12.

PMID:
20367285
3.

Pluripotent gene expression in mesenchymal stem cells from human umbilical cord Wharton's jelly and their differentiation potential to neural-like cells.

Tantrawatpan C, Manochantr S, Kheolamai P, U-Pratya Y, Supokawej A, Issaragrisil S.

J Med Assoc Thai. 2013 Sep;96(9):1208-17.

PMID:
24163998
4.

Proangiogenic features of Wharton's jelly-derived mesenchymal stromal/stem cells and their ability to form functional vessels.

Choi M, Lee HS, Naidansaren P, Kim HK, O E, Cha JH, Ahn HY, Yang PI, Shin JC, Joe YA.

Int J Biochem Cell Biol. 2013 Mar;45(3):560-70. doi: 10.1016/j.biocel.2012.12.001. Epub 2012 Dec 12.

PMID:
23246593
5.

MicroRNA-34a modulates genes involved in cellular motility and oxidative phosphorylation in neural precursors derived from human umbilical cord mesenchymal stem cells.

Chang SJ, Weng SL, Hsieh JY, Wang TY, Chang MD, Wang HW.

BMC Med Genomics. 2011 Sep 19;4:65. doi: 10.1186/1755-8794-4-65.

6.

Differential expression of cell cycle and WNT pathway-related genes accounts for differences in the growth and differentiation potential of Wharton's jelly and bone marrow-derived mesenchymal stem cells.

Batsali AK, Pontikoglou C, Koutroulakis D, Pavlaki KI, Damianaki A, Mavroudi I, Alpantaki K, Kouvidi E, Kontakis G, Papadaki HA.

Stem Cell Res Ther. 2017 Apr 26;8(1):102. doi: 10.1186/s13287-017-0555-9.

7.

Mesenchymal stromal cells from umbilical cord Wharton's jelly trigger oligodendroglial differentiation in neural progenitor cells through cell-to-cell contact.

Oppliger B, Joerger-Messerli MS, Simillion C, Mueller M, Surbek DV, Schoeberlein A.

Cytotherapy. 2017 Jul;19(7):829-838. doi: 10.1016/j.jcyt.2017.03.075. Epub 2017 Apr 27.

PMID:
28457739
8.

Human umbilical cord Wharton's Jelly-derived mesenchymal stem cells differentiation into nerve-like cells.

Ma L, Feng XY, Cui BL, Law F, Jiang XW, Yang LY, Xie QD, Huang TH.

Chin Med J (Engl). 2005 Dec 5;118(23):1987-93.

PMID:
16336835
9.

Wharton's jelly mesenchymal stromal/stem cells derived under chemically defined animal product-free low oxygen conditions are rich in MSCA-1(+) subpopulation.

Devito L, Badraiq H, Galleu A, Taheem DK, Codognotto S, Siow R, Khalaf Y, Briley A, Shennan A, Poston L, McGrath J, Gentleman E, Dazzi F, Ilic D.

Regen Med. 2014;9(6):723-32. doi: 10.2217/rme.14.60.

PMID:
25431909
10.

Isolation method and xeno-free culture conditions influence multipotent differentiation capacity of human Wharton's jelly-derived mesenchymal stem cells.

Corotchi MC, Popa MA, Remes A, Sima LE, Gussi I, Lupu Plesu M.

Stem Cell Res Ther. 2013 Jul 11;4(4):81. doi: 10.1186/scrt232.

11.

A rapid, simple, and reproducible method for the isolation of mesenchymal stromal cells from Wharton's jelly without enzymatic treatment.

De Bruyn C, Najar M, Raicevic G, Meuleman N, Pieters K, Stamatopoulos B, Delforge A, Bron D, Lagneaux L.

Stem Cells Dev. 2011 Mar;20(3):547-57. doi: 10.1089/scd.2010.0260. Epub 2010 Nov 9.

PMID:
20923277
12.

Stage-specific embryonic antigen 4 in Wharton's jelly-derived mesenchymal stem cells is not a marker for proliferation and multipotency.

He H, Nagamura-Inoue T, Tsunoda H, Yuzawa M, Yamamoto Y, Yorozu P, Agata H, Tojo A.

Tissue Eng Part A. 2014 Apr;20(7-8):1314-24. doi: 10.1089/ten.TEA.2013.0333. Epub 2014 Mar 14.

PMID:
24279891
13.

Comparative analysis of human mesenchymal stem cells from fetal-bone marrow, adipose tissue, and Warton's jelly as sources of cell immunomodulatory therapy.

Wang Q, Yang Q, Wang Z, Tong H, Ma L, Zhang Y, Shan F, Meng Y, Yuan Z.

Hum Vaccin Immunother. 2016;12(1):85-96. doi: 10.1080/21645515.2015.1030549.

14.

Endothelial differentiation of Wharton's jelly-derived mesenchymal stem cells in comparison with bone marrow-derived mesenchymal stem cells.

Chen MY, Lie PC, Li ZL, Wei X.

Exp Hematol. 2009 May;37(5):629-40. doi: 10.1016/j.exphem.2009.02.003.

PMID:
19375653
15.
16.

A simple and serum-free protocol for cryopreservation of human umbilical cord as source of Wharton's jelly mesenchymal stem cells.

Roy S, Arora S, Kumari P, Ta M.

Cryobiology. 2014 Jun;68(3):467-72. doi: 10.1016/j.cryobiol.2014.03.010. Epub 2014 Apr 4.

PMID:
24704519
17.

Hydrogen peroxide preconditioning enhances the therapeutic efficacy of Wharton's Jelly mesenchymal stem cells after myocardial infarction.

Zhang J, Chen GH, Wang YW, Zhao J, Duan HF, Liao LM, Zhang XZ, Chen YD, Chen H.

Chin Med J (Engl). 2012 Oct;125(19):3472-8.

PMID:
23044308
18.

Direct Comparison of Wharton's Jelly and Bone Marrow-Derived Mesenchymal Stromal Cells to Enhance Engraftment of Cord Blood CD34(+) Transplants.

van der Garde M, van Pel M, Millán Rivero JE, de Graaf-Dijkstra A, Slot MC, Kleinveld Y, Watt SM, Roelofs H, Zwaginga JJ.

Stem Cells Dev. 2015 Nov 15;24(22):2649-59. doi: 10.1089/scd.2015.0138. Epub 2015 Oct 8.

19.

Long-term expansion and pluripotent marker array analysis of Wharton's jelly-derived mesenchymal stem cells.

Nekanti U, Rao VB, Bahirvani AG, Jan M, Totey S, Ta M.

Stem Cells Dev. 2010 Jan;19(1):117-30. doi: 10.1089/scd.2009.0177.

PMID:
19619003
20.

Human umbilical cord mesenchymal stem cells derived from Wharton's jelly differentiate into cholinergic-like neurons in vitro.

Liang J, Wu S, Zhao H, Li SL, Liu ZX, Wu J, Zhou L.

Neurosci Lett. 2013 Jan 4;532:59-63. doi: 10.1016/j.neulet.2012.11.014. Epub 2012 Nov 21.

PMID:
23178189

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