-
1
-
-
84908348211
-
Single-cell cloning and expansion of human induced pluripotent stem cells by a microfluidic culture device
-
Matsumura T, Tatsumi K, Noda Y et al. Single-cell cloning and expansion of human induced pluripotent stem cells by a microfluidic culture device. Biochem. Biophys. Res. Commun. 453(1), 131-137 (2014).
-
(2014)
Biochem. Biophys. Res. Commun.
, vol.453
, Issue.1
, pp. 131-137
-
-
Matsumura, T.1
Tatsumi, K.2
Noda, Y.3
-
2
-
-
84949595392
-
Simple surface engineering of polydimethylsiloxane with polydopamine for stabilized mesenchymal stem cell adhesion and multipotency
-
Chuah YJ, Koh YT, Lim K, Menon NV, Wu Y, Kang Y. Simple surface engineering of polydimethylsiloxane with polydopamine for stabilized mesenchymal stem cell adhesion and multipotency. Sci. Rep. 5, 18162 (2015).
-
(2015)
Sci. Rep.
, vol.5
, pp. 18162
-
-
Chuah, Y.J.1
Koh, Y.T.2
Lim, K.3
Menon, N.V.4
Wu, Y.5
Kang, Y.6
-
3
-
-
84922473564
-
Engineering controllable architecture in matrigel for 3D cell alignment
-
Jang JM, Tran SH, Na SC, Jeon NL. Engineering controllable architecture in matrigel for 3D cell alignment. ACS Appl. Mater. Interfaces 7(4), 2183-2188 (2015).
-
(2015)
ACS Appl. Mater. Interfaces
, vol.7
, Issue.4
, pp. 2183-2188
-
-
Jang, J.M.1
Tran, S.H.2
Na, S.C.3
Jeon, N.L.4
-
4
-
-
84964683465
-
Induction of Human iPSC-derived cardiomyocyte proliferation revealed by combinatorial screening in high density microbioreactor arrays
-
Titmarsh DM, Glass NR, Mills RJ et al. Induction of Human iPSC-derived cardiomyocyte proliferation revealed by combinatorial screening in high density microbioreactor arrays. Sci. Rep. 6, 24637 (2016).
-
(2016)
Sci. Rep.
, vol.6
, pp. 24637
-
-
Titmarsh, D.M.1
Glass, N.R.2
Mills, R.J.3
-
5
-
-
84966769813
-
A 3D printed microfluidic device for production of functionalized hydrogel microcapsules for culture and differentiation of human neuronal stem cells (hNSC)
-
Alessandri K, Feyeux M, Gurchenkov B et al. A 3D printed microfluidic device for production of functionalized hydrogel microcapsules for culture and differentiation of human neuronal stem cells (hNSC). Lab Chip 16(9), 1593-1604 (2016).
-
(2016)
Lab Chip
, vol.16
, Issue.9
, pp. 1593-1604
-
-
Alessandri, K.1
Feyeux, M.2
Gurchenkov, B.3
-
6
-
-
84944209336
-
Controlled electromechanical cell stimulation on-a-chip
-
Multiple stimulations integration
-
Pavesi A, Adriani G, Rasponi M, Zervantonakis IK, Fiore GB, Kamm RD. Controlled electromechanical cell stimulation on-a-chip. Sci. Rep. 5, 11800 (2015). • Multiple stimulations integration.
-
(2015)
Sci. Rep.
, vol.5
, pp. 11800
-
-
Pavesi, A.1
Adriani, G.2
Rasponi, M.3
Zervantonakis, I.K.4
Fiore, G.B.5
Kamm, R.D.6
-
7
-
-
84930644255
-
Differentiation of neuroepithelial stem cells into functional dopaminergic neurons in 3D microfluidic cell culture
-
Moreno EL, Hachi S, Hemmer K et al. Differentiation of neuroepithelial stem cells into functional dopaminergic neurons in 3D microfluidic cell culture. Lab Chip 15(11), 2419-2428 (2015).
-
(2015)
Lab Chip
, vol.15
, Issue.11
, pp. 2419-2428
-
-
Moreno, E.L.1
Hachi, S.2
Hemmer, K.3
-
8
-
-
84899125649
-
Generation of 3D functional microvascular networks with human mesenchymal stem cells in microfluidic systems
-
Jeon JS, Bersini S, Whisler JA et al. Generation of 3D functional microvascular networks with human mesenchymal stem cells in microfluidic systems. Integr. Biol. (Camb.) 6(5), 555-563 (2014).
-
(2014)
Integr. Biol. (camb.)
, vol.6
, Issue.5
, pp. 555-563
-
-
Jeon, J.S.1
Bersini, S.2
Whisler, J.A.3
-
9
-
-
39149144034
-
Stem cells and niches: Mechanisms that promote stem cell maintenance throughout life
-
Morrison SJ, Spradling AC. Stem cells and niches: mechanisms that promote stem cell maintenance throughout life. Cell 132(4), 598-611 (2008).
-
(2008)
Cell
, vol.132
, Issue.4
, pp. 598-611
-
-
Morrison, S.J.1
Spradling, A.C.2
-
10
-
-
0000062301
-
Cytological demonstration of the clonal nature of spleen colonies derived from transplanted mouse marrow cells
-
Becker AJ, McCulloch E, Till JE. Cytological demonstration of the clonal nature of spleen colonies derived from transplanted mouse marrow cells. Nature 197, 452-454 (1963).
-
(1963)
Nature
, vol.197
, pp. 452-454
-
-
Becker, A.J.1
McCulloch, E.2
Till, J.E.3
-
11
-
-
39349106325
-
Differentiation of embryonic stem cells to clinically relevant populations: Lessons from embryonic development
-
Murry CE, Keller G. Differentiation of embryonic stem cells to clinically relevant populations: lessons from embryonic development. Cell 132(4), 661-680 (2008).
-
(2008)
Cell
, vol.132
, Issue.4
, pp. 661-680
-
-
Murry, C.E.1
Keller, G.2
-
12
-
-
84856078085
-
A family business: Stem cell progeny join the niche to regulate homeostasis
-
Hsu YC, Fuchs E. A family business: stem cell progeny join the niche to regulate homeostasis. Nat. Rev. Mol. Cell Biol. 13(2), 103-114 (2012).
-
(2012)
Nat. Rev. Mol. Cell Biol.
, vol.13
, Issue.2
, pp. 103-114
-
-
Hsu, Y.C.1
Fuchs, E.2
-
13
-
-
84904017119
-
Ethical issues in stem cell research and therapy
-
King NM, Perrin J. Ethical issues in stem cell research and therapy. Stem Cell Res. Ther. 5(4), 85 (2014).
-
(2014)
Stem Cell Res. Ther.
, vol.5
, Issue.4
, pp. 85
-
-
King, N.M.1
Perrin, J.2
-
14
-
-
84924989397
-
Research ethics and stem cells: Is it time to re-think current approaches to oversight?
-
Caulfield T, Kamenova K, Ogbogu U et al. Research ethics and stem cells: is it time to re-think current approaches to oversight? EMBO Rep. 16(1), 2-6 (2015).
-
(2015)
EMBO Rep.
, vol.16
, Issue.1
, pp. 2-6
-
-
Caulfield, T.1
Kamenova, K.2
Ogbogu, U.3
-
15
-
-
84899476903
-
Lab-on-a-chip technologies for stem cell analysis
-
Ertl P, Sticker D, Charwat V, Kasper C, Lepperdinger G. Lab-on-a-chip technologies for stem cell analysis. Trends Biotechnol. 32(5), 245-253 (2014).
-
(2014)
Trends Biotechnol.
, vol.32
, Issue.5
, pp. 245-253
-
-
Ertl, P.1
Sticker, D.2
Charwat, V.3
Kasper, C.4
Lepperdinger, G.5
-
16
-
-
84945286766
-
Concise review: Stem cell microenvironment on a chip: Current technologies for tissue engineering and stem cell biology
-
Park D, Lim J, Park JY, Lee SH. Concise review: stem cell microenvironment on a chip: current technologies for tissue engineering and stem cell biology. Stem Cells Transl. Med. 4(11), 1352-1368 (2015).
-
(2015)
Stem Cells Transl. Med.
, vol.4
, Issue.11
, pp. 1352-1368
-
-
Park, D.1
Lim, J.2
Park, J.Y.3
Lee, S.H.4
-
18
-
-
84944097575
-
Biomarker detection for disease diagnosis using cost-effective microfluidic platforms
-
Sanjay ST, Fu G, Dou M et al. Biomarker detection for disease diagnosis using cost-effective microfluidic platforms. Analyst 140(21), 7062-7081 (2015).
-
(2015)
Analyst
, vol.140
, Issue.21
, pp. 7062-7081
-
-
Sanjay, S.T.1
Fu, G.2
Dou, M.3
-
19
-
-
84962239127
-
Biochemical analysis on microfluidic chips
-
Wu J, He Z, Chen Q, Lin JM. Biochemical analysis on microfluidic chips. TrAC Trends Anal. Chem. 80, 213-231 (2016).
-
(2016)
Trac Trends Anal. Chem.
, vol.80
, pp. 213-231
-
-
Wu, J.1
He, Z.2
Chen, Q.3
Lin, J.M.4
-
20
-
-
84944163488
-
Low-cost bioanalysis on paper-based and its hybrid microfluidic platforms
-
Dou M, Sanjay ST, Benhabib M, Xu F, Li X. Low-cost bioanalysis on paper-based and its hybrid microfluidic platforms. Talanta 145, 43-54 (2015).
-
(2015)
Talanta
, vol.145
, pp. 43-54
-
-
Dou, M.1
Sanjay, S.T.2
Benhabib, M.3
Xu, F.4
Li, X.5
-
21
-
-
84959103347
-
Interfacial nano-biosensing in microfluidic droplets for high-sensitivity detection of low-solubility molecules
-
Dou M, Garcia JM, Zhan S, Li X. Interfacial nano-biosensing in microfluidic droplets for high-sensitivity detection of low-solubility molecules. Chem. Commun. (Camb.) 52(17), 3470-3473 (2016).
-
(2016)
Chem. Commun. (camb.)
, vol.52
, Issue.17
, pp. 3470-3473
-
-
Dou, M.1
Garcia, J.M.2
Zhan, S.3
Li, X.4
-
22
-
-
84988014914
-
Multiplexed instrument-free meningitis diagnosis on a polymer/paper hybrid microfluidic biochip
-
Dou M, Sanjay ST, Dominguez DC, Liu P, Xu F, Li X. Multiplexed instrument-free meningitis diagnosis on a polymer/paper hybrid microfluidic biochip. Biosens. Bioelectron. 87, 865-873 (2017).
-
(2017)
Biosens. Bioelectron.
, vol.87
, pp. 865-873
-
-
Dou, M.1
Sanjay, S.T.2
Dominguez, D.C.3
Liu, P.4
Xu, F.5
Li, X.6
-
23
-
-
84863898664
-
Microfluidic 3D cell culture: Potential application for tissue-based bioassays
-
Li XJ, Valadez AV, Zuo P, Nie Z. Microfluidic 3D cell culture: potential application for tissue-based bioassays. Bioanalysis 4(12), 1509-1525 (2012).
-
(2012)
Bioanalysis
, vol.4
, Issue.12
, pp. 1509-1525
-
-
Li, X.J.1
Valadez, A.V.2
Zuo, P.3
Nie, Z.4
-
24
-
-
84934942592
-
Microfluidic 3D cell culture: From tools to tissue models
-
Van Duinen V, Trietsch SJ, Joore J, Vulto P, Hankemeier T. Microfluidic 3D cell culture: from tools to tissue models. Curr. Opin. Biotechnol. 35, 118-126 (2015).
-
(2015)
Curr. Opin. Biotechnol.
, vol.35
, pp. 118-126
-
-
Van Duinen, V.1
Trietsch, S.J.2
Joore, J.3
Vulto, P.4
Hankemeier, T.5
-
26
-
-
84930938960
-
Stem cell niche engineering through droplet microfluidics
-
Allazetta S, Lutolf MP. Stem cell niche engineering through droplet microfluidics. Curr. Opin. Biotechnol. 35, 86-93 (2015).
-
(2015)
Curr. Opin. Biotechnol.
, vol.35
, pp. 86-93
-
-
Allazetta, S.1
Lutolf, M.P.2
-
27
-
-
84979555867
-
A paper/polymer hybrid microfluidic microplate for rapid quantitative detection of multiple disease biomarkers
-
Sanjay ST, Dou M, Sun J, Li X. A paper/polymer hybrid microfluidic microplate for rapid quantitative detection of multiple disease biomarkers. Sci. Rep. 6, 30474 (2016).
-
(2016)
Sci. Rep.
, vol.6
, pp. 30474
-
-
Sanjay, S.T.1
Dou, M.2
Sun, J.3
Li, X.4
-
28
-
-
84905694043
-
A versatile PDMS/paper hybrid microfluidic platform for sensitive infectious disease diagnosis
-
Dou M, Dominguez DC, Li X, Sanchez J, Scott G. A versatile PDMS/paper hybrid microfluidic platform for sensitive infectious disease diagnosis. Anal. Chem. 86(15), 7978-7986 (2014).
-
(2014)
Anal. Chem.
, vol.86
, Issue.15
, pp. 7978-7986
-
-
Dou, M.1
Dominguez, D.C.2
Li, X.3
Sanchez, J.4
Scott, G.5
-
29
-
-
61449210870
-
Enrichment of Cancer Cells Using Aptamers Immobilized on a Microfluidic Channel
-
Phillips JA, Xu Y, Xia Z, Fan ZH, Tan WH. Enrichment of Cancer Cells Using Aptamers Immobilized on a Microfluidic Channel. Anal. Chem. 81(3), 1033-1039 (2009).
-
(2009)
Anal. Chem.
, vol.81
, Issue.3
, pp. 1033-1039
-
-
Phillips, J.A.1
Xu, Y.2
Xia, Z.3
Fan, Z.H.4
Tan, W.H.5
-
30
-
-
44949119668
-
>Same-single-cell analysis for the study of drug efflux modulation of multidrug resistant cells
-
using a microfluidic chip
-
Li XJ, Ling V, Li PCH. Same-single-cell analysis for the study of drug efflux modulation of multidrug resistant cells
-
(2008)
Anal. Chem.
, vol.80
, Issue.11
, pp. 4095-4102
-
-
Li, X.J.1
Ling, V.2
Li, P.C.H.3
-
31
-
-
84883308225
-
A PDMS/paper/ glass hybrid microfluidic biochip integrated with aptamer-functionalized graphene oxide nano-biosensors for one-step multiplexed pathogen detection
-
Zuo P, Li X, Dominguez DC, Ye BC. A PDMS/paper/ glass hybrid microfluidic biochip integrated with aptamer-functionalized graphene oxide nano-biosensors for one-step multiplexed pathogen detection. Lab Chip 13(19), 3921-3928 (2013).
-
(2013)
Lab Chip
, vol.13
, Issue.19
, pp. 3921-3928
-
-
Zuo, P.1
Li, X.2
Dominguez, D.C.3
Ye, B.C.4
-
32
-
-
84940191327
-
Advances in microfluidic platforms for analyzing and regulating human pluripotent stem cells
-
Qian T, Shusta EV, Palecek SP. Advances in microfluidic platforms for analyzing and regulating human pluripotent stem cells. Curr. Opin. Genet. Dev. 34, 54-60 (2015).
-
(2015)
Curr. Opin. Genet. Dev.
, vol.34
, pp. 54-60
-
-
Qian, T.1
Shusta, E.V.2
Palecek, S.P.3
-
34
-
-
84892718887
-
Concise review: Microfluidic technology platforms: Poised to accelerate development and translation of stem cell-derived therapies
-
Titmarsh DM, Chen H, Glass NR, Cooper-White JJ. Concise review: microfluidic technology platforms: poised to accelerate development and translation of stem cell-derived therapies. Stem Cells Transl. Med. 3(1), 81-90 (2014).
-
(2014)
Stem Cells Transl. Med.
, vol.3
, Issue.1
, pp. 81-90
-
-
Titmarsh, D.M.1
Chen, H.2
Glass, N.R.3
Cooper-White, J.J.4
-
35
-
-
84905754409
-
Microfluidic organs-on-chips
-
Bhatia SN, Ingber DE. Microfluidic organs-on-chips. Nat. Biotechnol. 32(8), 760-772 (2014).
-
(2014)
Nat. Biotechnol.
, vol.32
, Issue.8
, pp. 760-772
-
-
Bhatia, S.N.1
Ingber, D.E.2
-
36
-
-
84868701701
-
Applications of microfluidics in stem cell biology
-
Zhang Q, Austin RH. Applications of microfluidics in stem cell biology. BioNanoScience 2(4), 277-286 (2012).
-
(2012)
Bionanoscience
, vol.2
, Issue.4
, pp. 277-286
-
-
Zhang, Q.1
Austin, R.H.2
-
37
-
-
84897054992
-
Microfluidic perfusion culture of human induced pluripotent stem cells under fully defined culture conditions
-
Yoshimitsu R, Hattori K, Sugiura S et al. Microfluidic perfusion culture of human induced pluripotent stem cells under fully defined culture conditions. Biotechnol. Bioeng. 111(5), 937-947 (2014).
-
(2014)
Biotechnol. Bioeng.
, vol.111
, Issue.5
, pp. 937-947
-
-
Yoshimitsu, R.1
Hattori, K.2
Sugiura, S.3
-
38
-
-
84879461661
-
A microfluidic array for quantitative analysis of human neural stem cell self-renewal and differentiation in three-dimensional hypoxic microenvironment
-
Yang K, Han S, Shin Y et al. A microfluidic array for quantitative analysis of human neural stem cell self-renewal and differentiation in three-dimensional hypoxic microenvironment. Biomaterials 34(28), 6607-6614 (2013).
-
(2013)
Biomaterials
, vol.34
, Issue.28
, pp. 6607-6614
-
-
Yang, K.1
Han, S.2
Shin, Y.3
-
39
-
-
84882746521
-
Microfluidic isolation of highly pure embryonic stem cells using feeder-separated co-culture system
-
Chen Q, Wu J, Zhuang Q, Lin X, Zhang J, Lin JM. Microfluidic isolation of highly pure embryonic stem cells using feeder-separated co-culture system. Sci. Rep. 3, 2433 (2013).
-
(2013)
Sci. Rep.
, vol.3
, pp. 2433
-
-
Chen, Q.1
Wu, J.2
Zhuang, Q.3
Lin, X.4
Zhang, J.5
Lin, J.M.6
-
40
-
-
84992159859
-
Enhanced cryopreservation of MSCs in microfluidic bioreactor by regulated shear flow
-
Bissoyi A, Bit A, Singh BK, Singh AK, Patra PK. Enhanced cryopreservation of MSCs in microfluidic bioreactor by regulated shear flow. Sci. Rep. 6, 35416 (2016).
-
(2016)
Sci. Rep.
, vol.6
, pp. 35416
-
-
Bissoyi, A.1
Bit, A.2
Singh, B.K.3
Singh, A.K.4
Patra, P.K.5
-
41
-
-
84939158725
-
Microfluidic assay to study the combinatorial impact of substrate properties on mesenchymal stem cell migration
-
Menon NV, Chuah YJ, Phey S et al. Microfluidic assay to study the combinatorial impact of substrate properties on mesenchymal stem cell migration. ACS Appl. Mater. Interfaces 7(31), 17095-17103 (2015).
-
(2015)
ACS Appl. Mater. Interfaces
, vol.7
, Issue.31
, pp. 17095-17103
-
-
Menon, N.V.1
Chuah, Y.J.2
Phey, S.3
-
42
-
-
84939634318
-
The use of covalently immobilized stem cell factor to selectively affect hematopoietic stem cell activity within a gelatin hydrogel
-
Mahadik BP, Pedron Haba S, Skertich LJ, Harley BA. The use of covalently immobilized stem cell factor to selectively affect hematopoietic stem cell activity within a gelatin hydrogel. Biomaterials 67, 297-307 (2015).
-
(2015)
Biomaterials
, vol.67
, pp. 297-307
-
-
Mahadik, B.P.1
Pedron Haba, S.2
Skertich, L.J.3
Harley, B.A.4
-
43
-
-
84921671470
-
The effects of poly(dimethylsiloxane) surface silanization on the mesenchymal stem cell fate
-
Chuah YJ, Kuddannaya S, Lee MH, Zhang Y, Kang Y. The effects of poly(dimethylsiloxane) surface silanization on the mesenchymal stem cell fate. Biomater. Sci. 3(2), 383-390 (2015).
-
(2015)
Biomater. Sci.
, vol.3
, Issue.2
, pp. 383-390
-
-
Chuah, Y.J.1
Kuddannaya, S.2
Lee, M.H.3
Zhang, Y.4
Kang, Y.5
-
44
-
-
84864490173
-
Exploring adipogenic differentiation of a single stem cell on poly(acrylic acid) and polystyrene micropatterns
-
Song W, Wang X, Lu H, Kawazoe N, Chen G. Exploring adipogenic differentiation of a single stem cell on poly(acrylic acid) and polystyrene micropatterns. Soft Matter 8(32), 8429 (2012).
-
(2012)
Soft Matter
, vol.8
, Issue.32
, pp. 8429
-
-
Song, W.1
Wang, X.2
Lu, H.3
Kawazoe, N.4
Chen, G.5
-
45
-
-
84932195996
-
Accelerated wound healing by injectable microporous gel scaffolds assembled from annealed building blocks
-
Griffin DR, Weaver WM, Scumpia PO, Di Carlo D, Segura T. Accelerated wound healing by injectable microporous gel scaffolds assembled from annealed building blocks. Nat. Mater. 14(7), 737-744 (2015).
-
(2015)
Nat. Mater.
, vol.14
, Issue.7
, pp. 737-744
-
-
Griffin, D.R.1
Weaver, W.M.2
Scumpia, P.O.3
Di Carlo, D.4
Segura, T.5
-
46
-
-
84901923061
-
Printing three-dimensional tissue analogues with decellularized extracellular matrix bioink
-
Pati F, Jang J, Ha DH et al. Printing three-dimensional tissue analogues with decellularized extracellular matrix bioink. Nat. Commun. 5, 3935 (2014).
-
(2014)
Nat. Commun.
, vol.5
, pp. 3935
-
-
Pati, F.1
Jang, J.2
Ha, D.H.3
-
47
-
-
84955317439
-
Tailored and biodegradable poly(2-oxazoline) microbeads as 3D matrices for stem cell culture in regenerative therapies
-
Lück S, Schubel R, Rub J et al. Tailored and biodegradable poly(2-oxazoline) microbeads as 3D matrices for stem cell culture in regenerative therapies. Biomaterials 79, 1-14 (2016).
-
(2016)
Biomaterials
, vol.79
, pp. 1-14
-
-
Lück, S.1
Schubel, R.2
Rub, J.3
-
48
-
-
84887534526
-
One-step microfluidic generation of pre-hatching embryo-like core-shell microcapsules for miniaturized 3D culture of pluripotent stem cells
-
Agarwal P, Zhao S, Bielecki P et al. One-step microfluidic generation of pre-hatching embryo-like core-shell microcapsules for miniaturized 3D culture of pluripotent stem cells. Lab Chip 13(23), 4525-4533 (2013).
-
(2013)
Lab Chip
, vol.13
, Issue.23
, pp. 4525-4533
-
-
Agarwal, P.1
Zhao, S.2
Bielecki, P.3
-
49
-
-
84929991052
-
High-throughput microfluidic platform for 3D cultures of mesenchymal stem cells, towards engineering developmental processes
-
Occhetta P, Centola M, Tonnarelli B, Redaelli A, Martin I, Rasponi M. High-throughput microfluidic platform for 3D cultures of mesenchymal stem cells, towards engineering developmental processes. Sci. Rep. 5, 10288 (2015).
-
(2015)
Sci. Rep.
, vol.5
, pp. 10288
-
-
Occhetta, P.1
Centola, M.2
Tonnarelli, B.3
Redaelli, A.4
Martin, I.5
Rasponi, M.6
-
50
-
-
84971553878
-
Microcavity arrays as an in vitro model system of the bone marrow niche for hematopoietic stem cells
-
Wuchter P, Saffrich R, Giselbrecht S et al. Microcavity arrays as an in vitro model system of the bone marrow niche for hematopoietic stem cells. Cell Tissue Res. 364(3), 573-584 (2016).
-
(2016)
Cell Tissue Res.
, vol.364
, Issue.3
, pp. 573-584
-
-
Wuchter, P.1
Saffrich, R.2
Giselbrecht, S.3
-
51
-
-
84915749123
-
Design of a 2D no-flow chamber to monitor hematopoietic stem cells
-
Cambier T, Honegger T, Vanneaux V et al. Design of a 2D no-flow chamber to monitor hematopoietic stem cells. Lab Chip 15(1), 77-85 (2015).
-
(2015)
Lab Chip
, vol.15
, Issue.1
, pp. 77-85
-
-
Cambier, T.1
Honegger, T.2
Vanneaux, V.3
-
52
-
-
84905587712
-
Control of adhesion of human induced pluripotent stem cells to plasma-patterned polydimethylsiloxane coated with vitronectin and gamma-globulin
-
Yamada R, Hattori K, Tachikawa S et al. Control of adhesion of human induced pluripotent stem cells to plasma-patterned polydimethylsiloxane coated with vitronectin and gamma-globulin. J. Biosci. Bioeng. 118(3), 315-322 (2014).
-
(2014)
J. Biosci. Bioeng.
, vol.118
, Issue.3
, pp. 315-322
-
-
Yamada, R.1
Hattori, K.2
Tachikawa, S.3
-
53
-
-
84857944649
-
Engineers are from PDMS-land, biologists are from polystyrenia
-
Berthier E, Young EW, Beebe D. Engineers are from PDMS-land, biologists are from polystyrenia. Lab Chip 12(7), 1224-1237 (2012).
-
(2012)
Lab Chip
, vol.12
, Issue.7
, pp. 1224-1237
-
-
Berthier, E.1
Young, E.W.2
Beebe, D.3
-
54
-
-
84899434722
-
Nanostructured polystyrene films engineered by plasma processes: Surface characterization and stem cell interaction
-
Mattioli S, Martino S, D'angelo F, Emiliani C, Kenny JM, Armentano I. Nanostructured polystyrene films engineered by plasma processes: surface characterization and stem cell interaction. J. Appl. Polym. Sci. 131(14), 40427 (2014).
-
(2014)
J. Appl. Polym. Sci.
, vol.131
, Issue.14
, pp. 40427
-
-
Mattioli, S.1
Martino, S.2
D'Angelo, F.3
Emiliani, C.4
Kenny, J.M.5
Armentano, I.6
-
55
-
-
84979828675
-
Defined three-dimensional microenvironments boost induction of pluripotency
-
Caiazzo M, Okawa Y, Ranga A, Piersigilli A, Tabata Y, Lutolf MP. Defined three-dimensional microenvironments boost induction of pluripotency. Nat. Mater. 15(3), 344-352 (2016).
-
(2016)
Nat. Mater.
, vol.15
, Issue.3
, pp. 344-352
-
-
Caiazzo, M.1
Okawa, Y.2
Ranga, A.3
Piersigilli, A.4
Tabata, Y.5
Lutolf, M.P.6
-
56
-
-
84945483523
-
Engineering cell microenvironment using novel functional hydrogels
-
Zhang X, Liu M, Li Y et al. Engineering cell microenvironment using novel functional hydrogels. Eur. Polym. J. 72, 590-601 (2015).
-
(2015)
Eur. Polym. J.
, vol.72
, pp. 590-601
-
-
Zhang, X.1
Liu, M.2
Li, Y.3
-
57
-
-
84943792255
-
Fabrication of uniform-sized poly-varepsilon-caprolactone microspheres and their applications in human embryonic stem cell culture
-
Li J, Lam AT, Toh JP, Reuveny S, Oh SK, Birch WR. Fabrication of uniform-sized poly-varepsilon-caprolactone microspheres and their applications in human embryonic stem cell culture. Biomed. Microdevices 17(6), 105 (2015).
-
(2015)
Biomed. Microdevices
, vol.17
, Issue.6
, pp. 105
-
-
Li, J.1
Lam, A.T.2
Toh, J.P.3
Reuveny, S.4
Oh, S.K.5
Birch, W.R.6
-
58
-
-
84985919319
-
Real-time monitoring of specific oxygen uptake rates of embryonic stem cells in a microfluidic cell culture device
-
Super A, Jaccard N, Cardoso Marques MP et al. Real-time monitoring of specific oxygen uptake rates of embryonic stem cells in a microfluidic cell culture device. Biotechnol. J. 11(9), 1179-1189 (2016).
-
(2016)
Biotechnol. J.
, vol.11
, Issue.9
, pp. 1179-1189
-
-
Super, A.1
Jaccard, N.2
Cardoso Marques, M.P.3
-
59
-
-
84863898664
-
Microfluidic 3D cell culture: Potential application for tissue-based bioassays
-
Li XJ, Valadez AV, Zuo P, Nie Z. Microfluidic 3D cell culture: potential application for tissue-based bioassays. Bioanalysis 4(12), 1509-1525 (2012).
-
(2012)
Bioanalysis
, vol.4
, Issue.12
, pp. 1509-1525
-
-
Li, X.J.1
Valadez, A.V.2
Zuo, P.3
Nie, Z.4
-
60
-
-
84949201685
-
In vitro spatially organizing the differentiation in individual multicellular stem cell aggregates
-
Qi H, Huang G, Han YL et al. In vitro spatially organizing the differentiation in individual multicellular stem cell aggregates. Crit. Rev. Biotechnol. 36(1), 20-31 (2016).
-
(2016)
Crit. Rev. Biotechnol.
, vol.36
, Issue.1
, pp. 20-31
-
-
Qi, H.1
Huang, G.2
Han, Y.L.3
-
61
-
-
84960346169
-
A hybrid microfluidic system for regulation of neural differentiation in induced pluripotent stem cells
-
Hesari Z, Soleimani M, Atyabi F et al. A hybrid microfluidic system for regulation of neural differentiation in induced pluripotent stem cells. J. Biomed. Mater. Res. A 104(6), 1534-1543 (2016).
-
(2016)
J. Biomed. Mater. Res. A
, vol.104
, Issue.6
, pp. 1534-1543
-
-
Hesari, Z.1
Soleimani, M.2
Atyabi, F.3
-
62
-
-
84907943789
-
Maintenance and neuronal cell differentiation of neural stem cells C17.2 correlated to medium availability sets design criteria in microfluidic systems
-
Wang B, Jedlicka S, Cheng X. Maintenance and neuronal cell differentiation of neural stem cells C17.2 correlated to medium availability sets design criteria in microfluidic systems. PLoS ONE 9(10), e109815 (2014).
-
(2014)
Plos ONE
, vol.9
, Issue.10
, pp. e109815
-
-
Wang, B.1
Jedlicka, S.2
Cheng, X.3
-
63
-
-
84955239755
-
Microfluidic fabrication of bioactive microgels for rapid formation and enhanced differentiation of stem cell spheroids
-
Siltanen C, Yaghoobi M, Haque A et al. Microfluidic fabrication of bioactive microgels for rapid formation and enhanced differentiation of stem cell spheroids. Acta Biomater. 34, 125-132 (2016).
-
(2016)
Acta Biomater.
, vol.34
, pp. 125-132
-
-
Siltanen, C.1
Yaghoobi, M.2
Haque, A.3
-
64
-
-
84956904595
-
Simultaneous or sequential orthogonal gradient formation in a 3D cell culture microfluidic platform
-
Uzel SG, Amadi OC, Pearl TM, Lee RT, So PT, Kamm RD. Simultaneous or sequential orthogonal gradient formation in a 3D cell culture microfluidic platform. Small 12(5), 612-622 (2016).
-
(2016)
Small
, vol.12
, Issue.5
, pp. 612-622
-
-
Uzel, S.G.1
Amadi, O.C.2
Pearl, T.M.3
Lee, R.T.4
So, P.T.5
Kamm, R.D.6
-
65
-
-
84952670324
-
Recapitulation of in vivo-like paracrine signals of human mesenchymal stem cells for functional neuronal differentiation of human neural stem cells in a 3D microfluidic system
-
Yang K, Park HJ, Han S et al. Recapitulation of in vivo-like paracrine signals of human mesenchymal stem cells for functional neuronal differentiation of human neural stem cells in a 3D microfluidic system. Biomaterials 63, 177-188 (2015).
-
(2015)
Biomaterials
, vol.63
, pp. 177-188
-
-
Yang, K.1
Park, H.J.2
Han, S.3
-
66
-
-
84899091637
-
Shear stress induced by an interstitial level of slow flow increases the osteogenic differentiation of mesenchymal stem cells through TAZ activation
-
Kim KM, Choi YJ, Hwang JH et al. Shear stress induced by an interstitial level of slow flow increases the osteogenic differentiation of mesenchymal stem cells through TAZ activation. PLoS ONE 9(3), e92427 (2014).
-
(2014)
Plos ONE
, vol.9
, Issue.3
, pp. e92427
-
-
Kim, K.M.1
Choi, Y.J.2
Hwang, J.H.3
-
67
-
-
84906264761
-
Stretchable and micropatterned membrane for osteogenic differentation of stem cells
-
Shi X, Li L, Ostrovidov S, Shu Y, Khademhosseini A, Wu H. Stretchable and micropatterned membrane for osteogenic differentation of stem cells. ACS Appl. Mater. Interfaces 6(15), 11915-11923 (2014).
-
(2014)
ACS Appl. Mater. Interfaces
, vol.6
, Issue.15
, pp. 11915-11923
-
-
Shi, X.1
Li, L.2
Ostrovidov, S.3
Shu, Y.4
Khademhosseini, A.5
Wu, H.6
-
68
-
-
84940364192
-
Microfluidic platform for human placenta-derived multipotent stem cells culture and applied for enhanced neuronal differentiation
-
Cheng YC, Tsao CW, Chiang MZ et al. Microfluidic platform for human placenta-derived multipotent stem cells culture and applied for enhanced neuronal differentiation. Microfluid. Nanofluid. 18(4), 587-598 (2014).
-
(2014)
Microfluid. Nanofluid.
, vol.18
, Issue.4
, pp. 587-598
-
-
Cheng, Y.C.1
Tsao, C.W.2
Chiang, M.Z.3
-
69
-
-
84902087268
-
Modeling the mitochondrial cardiomyopathy of Barth syndrome with induced pluripotent stem cell and heart-on-chip technologies
-
Wang G, Mccain ML, Yang L et al. Modeling the mitochondrial cardiomyopathy of Barth syndrome with induced pluripotent stem cell and heart-on-chip technologies. Nat. Med. 20(6), 616-623 (2014).
-
(2014)
Nat. Med.
, vol.20
, Issue.6
, pp. 616-623
-
-
Wang, G.1
McCain, M.L.2
Yang, L.3
-
70
-
-
79959228013
-
High-throughput combinatorial cell co-culture using microfluidics
-
Tumarkin E, Tzadu L, Csaszar E et al. High-throughput combinatorial cell co-culture using microfluidics. Integr. Biol. (Camb.) 3(6), 653-662 (2011).
-
(2011)
Integr. Biol. (camb.)
, vol.3
, Issue.6
, pp. 653-662
-
-
Tumarkin, E.1
Tzadu, L.2
Csaszar, E.3
-
71
-
-
84901823942
-
Bone marrow-on-a-chip replicates hematopoietic niche physiology in vitro
-
Torisawa YS, Spina CS, Mammoto T et al. Bone marrow-on-a-chip replicates hematopoietic niche physiology in vitro. Nat. Methods 11(6), 663-669 (2014).
-
(2014)
Nat. Methods
, vol.11
, Issue.6
, pp. 663-669
-
-
Torisawa, Y.S.1
Spina, C.S.2
Mammoto, T.3
-
72
-
-
85008259789
-
Spatial engineering of osteochondral tissue constructs through microfluidically directed differentiation of mesenchymal stem cells
-
Goldman SM, Barabino GA. Spatial engineering of osteochondral tissue constructs through microfluidically directed differentiation of mesenchymal stem cells. Biores. Open Access 5(1), 109-117 (2016).
-
(2016)
Biores. Open Access
, vol.5
, Issue.1
, pp. 109-117
-
-
Goldman, S.M.1
Barabino, G.A.2
-
74
-
-
84978174363
-
Microfluidic systems for stem cell-based neural tissue engineering
-
Karimi M, Bahrami S, Mirshekari H et al. Microfluidic systems for stem cell-based neural tissue engineering. Lab Chip 16(14), 2551-2571 (2016).
-
(2016)
Lab Chip
, vol.16
, Issue.14
, pp. 2551-2571
-
-
Karimi, M.1
Bahrami, S.2
Mirshekari, H.3
-
75
-
-
85069006459
-
Organ-on-chip models: New opportunities for biomedical research
-
Epub ahead of print
-
Mosig AS. Organ-on-chip models: new opportunities for biomedical research. Future Sci. OA doi:10.4155/fsoa-2016-0038 (2016) (Epub ahead of print).
-
(2016)
Future Sci. OA
-
-
Mosig, A.S.1
|