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Liu Hua

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Full Name
Liu Hua
(not current staff)
Variants
Liu, H.
 
Main Affiliation
 
Faculty
 
Email
denliuh@nus.edu.sg
 
Other emails
 

Publications

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Type:  Article

Results 1-20 of 20 (Search time: 0.005 seconds).

Issue DateTitleAuthor(s)
12009A subpopulation of mesenchymal stromal cells with high osteogenic potentialLiu, H. ; Toh, W.S.; Lu, K.; Cao, T. ; MacAry, P.A. ; Kemeny, D.M. 
22010Autologous feeder cells from embryoid body outgrowth support the long-term growth of human embryonic stem cells more effectively than those from direct differentiationFu, X.; Toh, W.S. ; Liu, H. ; Lu, K.; Li, M.; Hande, M.P.; Cao, T. 
32005Combined effects of TGFβ1 and BMP2 in serum-free chondrogenic differentiation of mesenchymal stem cells induced hyaline-like cartilage formationToh, W.S. ; Liu, H. ; Heng, B.C. ; Rufaihah, A.J. ; Ye, C.P.; Cao, T. 
42005Comparison of different test models for the assessment of cytotoxicity of composite resinsCao, T. ; Saw, T.Y.; Heng, B.C. ; Liu, H. ; Yap, A.U.J. ; Ng, M.L. 
5May-2007Culture media conditioned by heat-shocked osteoblasts enhances the osteogenesis of bone marrow-derived mesenchymal stromal cellsChao, P.Y.; Boon, C.H. ; Liu, H. ; Wei, S.T. ; Cao, T. 
6Mar-2013Differentiation of human embryonic stem cells into clinically amenable keratinocytes in an autogenic environmentKidwai, F.K.; Liu, H. ; Toh, W.S. ; Fu, X.; Jokhun, D.S.; Movahednia, M.M.; Li, M.; Zou, Y.; Squier, C.A.; Phan, T.T.; Cao, T. 
72007Effects of culture conditions and bone morphogenetic protein 2 on extent of chondrogenesis from human embryonic stem cellsWei, S.T.; Yang, Z. ; Liu, H. ; Boon, C.H.; Cao, T. ; Eng, H.L.
82011Establishment of clinically compliant human embryonic stem cells in an autologous feeder-free systemFu, X.; Toh, W.S. ; Liu, H. ; Lu, K.; Li, M.; Cao, T. 
92004Feeder cell density - A key parameter in human embryonic stem cell cultureHeng, B.C. ; Liu, H. ; Cao, T. 
10Mar-2006Human embryonic stem cell (hES) colonies display a higher degree of spontaneous differentiation when passaged at lower densitiesHeng, B.C. ; Liu, H. ; Rufaihah, A.J. ; Cao, T. 
11Nov-2006Kinetics of cell death of frozen-thawed human embryonic stem cell colonies is reversibly slowed down by exposure to low temperatureHeng, B.C. ; Ye, C.P.; Liu, H. ; Toh, W.S. ; Rufaihah, A.J. ; Cao, T. 
122005Late-adhering human embryonic stem cell clumps during serial passage can yield morphologically 'normal-looking' coloniesHeng, B.C. ; Liu, H. ; Cao, T. 
132006Loss of viability during freeze-thaw of intact and adherent human embryonic stem cells with conventional slow-cooling protocols is predominantly due to apoptosis rather than cellular necrosisBoon, C.H.; Chao, P.Y.; Liu, H. ; Wei, S.T.; Ge, Z. ; Cao, T. ; Rufaihah, A.J.; Yang, Z. ; Eng, H.L.; Boon, H.B.; Hog, W.O.
142006Low temperature tolerance of human embryonic stem cellsBoon, C.H. ; Vinoth, K.J. ; Liu, H. ; Hande, M.P.; Cao, T. 
152007Mechanical dissociation of human embryonic stem cell colonies by manual scraping after collagenase treatment is much more detrimental to cellular viability than is trypsinization with gentle pipettingBoon, C.H. ; Liu, H. ; Ge, Z. ; Cao, T. 
16Aug-2005Osteogenic differentiation within intact human embryoid bodies result in a marked increase in osteocalcin secretion after 12 days of in vitro culture, and formation of morphologically distinct nodule-like structuresCao, T. ; Heng, B.C. ; Ye, C.P.; Liu, H. ; Toh, W.S. ; Robson, P.; Li, P.; Hong, Y.H. ; Stanton, L.W.
172005Reduced mitotic activity at the periphery of human embryonic stem cell colonies cultured in vitro with mitotically-inactivated murine embryonic fibroblast feeder cellsHeng, B.C. ; Cao, T. ; Liu, H. ; Rufaihah, A.J. 
182012Soluble molecules are key in maintaining the immunomodulatory activity of murine mesenchymal stromal cellsLiu, H. ; Lu, K.; Macary, P.A.; Wong, K.L.; Heng, A.; Cao, T. ; Kemeny, D.M.
192006The immunogenicity and immunomodulatory function of osteogenic cells differentiated from mesenchymal stem cellsLiu, H. ; Heng, B.C. ; Cao, T. ; Kemeny, D.M. ; Ouyang, H.W. ; Melendez, A.J. 
202005Utilising human embryonic stem cells as 'catalysts' for biological repair and regeneration. Challenges and some possible strategiesHeng, B.C. ; Liu, H. ; Cao, T.