Page 250 - Bio Engineering Approaches to Cancer Diagnosis and Treatment
P. 250
References 249
[72] G. Vona, A. Sabile, M. Louha, V. Sitruk, S. Romana, K. Schütze, et al. Isolation by size
of epithelial tumor cells: a new method for the immunomorphological and molecular
characterization of circulating tumor cells, Am. J. Pathol. 156 (1) (2000) 57–63.
[73] Y. Yoon, J. Lee, K.C. Yoo, O. Sul, S.J. Lee, S.B. Lee, Deterministic capture of individual
circulating tumor cells using a flow-restricted microfluidic trap array, Micromachines 9
(3) (2018) 106.
[74] W.J. Allard, J. Matera, M.C. Miller, M. Repollet, M.C. Connelly, C. Rao, et al. Tumor
cells circulate in the peripheral blood of all major carcinomas but not in healthy subjects
or patients with nonmalignant diseases, Clin. Cancer Res. 10 (20) (2004) 6897–6904.
[75] F. Krombach, S. Münzing, A.M. Allmeling, J.T. Gerlach, J. Behr, M. Dörger, Cell size of
alveolar macrophages: an interspecies comparison, Environ. Health Perspect. 105 (Suppl.
5) (1997) 1261–1263.
[76] P.B. Muller, R. Barnkob, M.J.H. Jensen, H. Bruus, A numerical study of microparticle
acoustophoresis driven by acoustic radiation forces and streaming-induced drag forces,
Lab Chip 12 (22) (2012) 4617–4627.
[77] M. Gedge, M. Hill, Acoustofluidics 17: theory and applications of surface acoustic wave
devices for particle manipulation, Lab Chip 12 (17) (2012) 2998–3007.
[78] M. Ghassemi, A. Shahidian, Nano and Bio Heat Transfer and Fluid Flow, Academic
Press, London, (2017).
[79] P.B. Muller, M. Rossi, A.G. Marin, R. Barnkob, P. Augustsson, T. Laurell, et al. Ultra-
sound-induced acoustophoretic motion of microparticles in three dimensions, Phys. Rev.
E 88 (2) (2013) 023006.
