Biomedical Engineering Reference
In-Depth Information
98. Sun L, Zborowski M, Moore LR, Chalmers JJ. Continuous, flow-through
immunomagnetic cell sorting in a quadrupole field. Cytometry 1998;33(4):469-475.
99. Lara O, Tong X, Zborowski M, Chalmers JJ. Enrichment of rare cancer cells through
depletion of normal cells using density and flow-through,
immunomagnetic cell
separation. Exp. Hematol. 2004;32(10):891-904.
100. Zborowski M, Chalmers
JJ. Magnetic
cell
sorting. Methods Mol. Biol.
2005;295:291-300.
101. Jin X, Zhao Y, Richardson A, Moore L, Williams PS, Zborowski M, Chalmers JJ.
Differences in magnetically induced motion of diamagnetic, paramagnetic, and
superparamagnetic microparticles detected by cell
tracking velocimetry. Analyst
2008;133(12):1767-1775.
102. Michalet X, Pinaud FF, Bentolila LA, Tsay JM, Doose S, Li JJ, Sundaresan G, Wu AM,
Gambhir SS, Weiss S. Quantum dots for live cells, in vivo imaging, and diagnostics.
Science 2005;307(5709):538-544.
103. Ebenstein Y, Gassman N, Kim S, Antelman J, KimY, Ho S, Samuel R, Michalet X, Weiss
S. Lighting up individual DNA binding proteins with quantum dots. Nano Lett. 2009;9
(4):1598-1603.
104. Farias PM, Santos BS, Fontes A. Semiconductor fluorescent quantum dots: efficient
biolabels in cancer diagnostics. Methods Mol. Biol. 2009;544:407-419.
105. Michalet X, Colyer RA, Antelman J, Siegmund OH, Tremsin A, Vallerga JV, Weiss S.
Single-quantum dot imaging with a photon counting camera. Curr. Pharm. Biotechnol.
2009;10(5):543-558.
106. Pinaud F, Michalet X, Bentolila LA, Tsay JM, Doose S, Li JJ, Iyer G, Weiss S. Advances in
fluorescence imaging with quantum dot bio-probes. Biomaterials 2006;27(9):1679-1687.
107. Chattopadhyay PK, Price DA, Harper TF, Betts MR, Yu J, Gostick E, Perfetto SP,
Goepfert P, Koup RA, De Rosa SC, et al. Quantum dot semiconductor nanocrystals for
immunophenotyping by polychromatic flow cytometry. Nat. Med. 2006;12(8):972-977.
108. Machleidt T, Whitney P, Bi K. Multiplexing of pathway-specific beta-lactamase reporter
gene assays by optical coding with Qtracker nanocrystals. J. Biomol. Screen.
2009;14(7):845-852.
109. Sukhanova A, Susha AS, Bek A, Mayilo S, Rogach AL, Feldmann J, Oleinikov V, Reveil
B, Donvito B, Cohen JH, et al. Nanocrystal-encoded fluorescent microbeads for
proteomics: antibody profiling and diagnostics of autoimmune diseases. Nano Lett.
2007;7(8):2322-2327.
110. Di Corato R, Piacenza P, MusaroM, Buonsanti R, Cozzoli PD, Zambianchi M, Barbarella
G, Cingolani R, Manna L, Pellegrino T. Magnetic-fluorescent colloidal nanobeads:
preparation and exploitation in cell separation experiments. Macromol. Biosci.
2009;9:952-958.
111. Nabiev I, Mitchell S, Davies A, Williams Y, Kelleher D, Moore R, Gun ko YK, Byrne S,
RakovichYP, Donegan JF, et al. Nonfunctionalized nanocrystals can exploit a cell s active
transport machinery delivering them to specific nuclear and cytoplasmic compartments.
Nano Lett. 2007;7(11):3452-3461.
112. Vaijayanthimala V, Tzeng YK, Chang HC, Li CL. The biocompatibility of fluorescent
nanodiamonds and their mechanism of cellular uptake. Nanotechnology 2009;20
(42):425103.
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