Biomedical Engineering Reference
In-Depth Information
40. D. Juncker, H. Schmid, U. Drechsler, H. Wolf, M. Wolf, B. Michel, N. de Rooij, and
E. Delamarche, “Autonomous microfluidic capillary system, Anal. Chem.
74
6139-6144
(2002)
41. K.Y. Weng, N.J. Chou, and J.W. Cheng, Triggering vacuum capillaries for pneumatic pumping
and metering liquids in point-of-care immunoassays. Lab Chip
8
, 1216-1219 (2008)
42. C.M. Cheng, A. W. Martinez, J. Gong, C.R. Mace, S.T. Phillips, E. Carrilho, K.A. Mirica, and
G.M. Whitesides, Paper-based ELISA. Angew. Chem. Int. Ed. Engl.
49
, 4771-4774 (2010)
43. A.E. Herr, A.V. Hatch, D.J. Throckmorton, H.M. Tran, J.S. Brennan, W.V. Giannobile, and
A.K. Singh, Microfluidic immunoassays as rapid saliva-based clinical diagnostics. Proc. Natl.
Acad. Sci. U. S. A.
104
, 5268-5273 (2007)
44. B.S. Lee, Y.U. Lee, H.S. Kim, T.H. Kim, J. Park, J.G. Lee, J. Kim, H. Kim, W.G. Lee,
and Y.K. Cho, Fully integrated lab-on-a-disc for simultaneous analysis of biochemistry and
immunoassay from whole blood. Lab Chip
11
, 70-78 (2011)
45. H. Tsutsui and C.M. Ho, Cell separation by non-inertial force fields in microfluidic systems.
Mech. Res. Commun.
36
, 92-103 (2009)
46. V. VanDelinder and A. Groisman, Separation of plasma from whole human blood in a
continuous cross-flow in a molded microfluidic device. Anal. Chem.
78
, 3765-3771 (2006)
47. N.N. Ma, K.W. Koelling, and J.J. Chalmers, Fabrication and use of a transient contractional
flow device to quantify the sensitivity of mammalian and insect cells to hydrodynamic forces.
Biotechnol. Bioeng.
80
, 428-437 (2002)
48. I. Doh and Y.H. Cho, A continuous cell separation chip using hydrodynamic dielectrophoresis
(DEP) process. Sensor. Actuat. A-Phys.
121
, 59-65 (2005)
49. M.M. Wang, E. Tu, D.E. Raymond, J.M. Yang, H.C. Zhang, N. Hagen, B. Dees, E.M. Mercer,
A.H. Forster, I. Kariv, P.J. Marchand, and W.F. Butler, Microfluidic sorting of mammalian cells
by optical force switching. Nat. Biotechnol.
23
, 83-87 (2005)
50. Y. Sai, M. Yamada, M. Yasuda, and M. Seki, Continuous separation of particles using a
microfluidic device equipped with flow rate control valves. J. Chromatogr. A
1127
, 214-220
(2006)
51. F. Petersson, L. Aberg, A.M. Sward-Nilsson, and T. Laurell, Free flow acoustophoresis:
Microfluidic-based mode of particle and cell separation. Anal. Chem.
79
5117-5123 (2007)
52. X.H. Cheng, D. Irimia, M. Dixon, K. Sekine, U. Demirci, L. Zamir, R.G. Tompkins,
W. Rodriguez, and M. Toner, A microfluidic device for practical label-free CD4+T cell
counting of HIV-infected subjects. Lab Chip
7
, 170-178 (2007)
53. A. Osei-Bimpong, C. Jury, R. McLean, and S.M. Lewis, Point-of-care method for total white
cell count: an evaluation of the HemoCue WBC device. Int. J. Lab. Hematol.
31
, 657-664
(2009)
54. L.V. Rao, B.A. Ekberg, D. Connor, F. Jakubiak, G.M. Vallaro, and M. Snyder, “Evaluation of a
new point of care automated complete blood count (CBC) analyzer in various clinical settings.
Clin. Chim. Acta.
389
, 120-125 (2008)
55. X. Cheng, Y.S. Liu, D. Irimia, U. Demirci, L. Yang, L. Zamir, W.R. Rodriguez, M. Toner,
and R. Bashir, Cell detection and counting through cell lysate impedance spectroscopy in
microfluidic devices. Lab Chip
7
, 746-755 (2007)
56. J.V. Jokerst, P.N. Floriano, N. Christodoulides, G.W. Simmons, and J.T. McDevitt, Integration
of semiconductor quantum dots into nano-bio-chip systems for enumeration of CD4
C
T cell
counts at the point-of-need. Lab Chip
8
, 2079-2090 (2008)
57. D. Schafer, E.A. Gibson, E.A. Salim, A.E. Palmer, R. Jimenez, and J. Squier, Microfluidic
cell counter with embedded optical fibers fabricated by femtosecond laser ablation and anodic
bonding. Opt. Express
17
, 6068-6073 (2009)
58. S. Mtapuri-Zinyowera, M. Chideme, D. Mangwanya, O. Mugurungi, S. Gudukeya, K. Hatzold,
A. Mangwiro, G. Bhattacharya, J. Lehe, and T. Peter, Evaluation of the PIMA point-of-care
CD4 analyzer in VCT clinics in Zimbabwe. J. Acquir. Immune. Defic. Syndr.
55
, 1-7 (2010)
59. Z. Wang, S.Y. Chin, C.D. Chin, J. Sarik, M. Harper, J. Justman, and S.K. Sia, Microfluidic
CD4
T-cell counting device using chemiluminescence-based detection. Anal. Chem.
82
,
36-40 (2010)
C
