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Items: 1 to 20 of 131

1.

Development of a radial ventricular assist device using numerical predictions and experimental haemolysis.

Carswell D, Hilton A, Chan C, McBride D, Croft N, Slone A, Cross M, Foster G.

Med Eng Phys. 2013 Aug;35(8):1197-203. doi: 10.1016/j.medengphy.2012.12.008.

PMID:
23384537
2.

Numerical and experimental analysis of an axial flow left ventricular assist device: the influence of the diffuser on overall pump performance.

Untaroiu A, Throckmorton AL, Patel SM, Wood HG, Allaire PE, Olsen DB.

Artif Organs. 2005 Jul;29(7):581-91.

PMID:
15982287
3.

Computational fluid dynamics investigation of a centrifugal blood pump.

Legendre D, Antunes P, Bock E, Andrade A, Biscegli JF, Ortiz JP.

Artif Organs. 2008 Apr;32(4):342-8. doi: 10.1111/j.1525-1594.2008.00552.x.

PMID:
18370951
4.
5.

Analysis of flow patterns in a ventricular assist device: a comparative study of particle image velocimetry and computational fluid dynamics.

Sato K, Orihashi K, Kurosaki T, Tokumine A, Fukunaga S, Ninomiya S, Sueda T.

Artif Organs. 2009 Apr;33(4):352-9. doi: 10.1111/j.1525-1594.2009.00726.x.

PMID:
19335412
6.

Flow mixing and fluid residence times in a model of a ventricular assist device.

K├Ânig CS, Clark C.

Med Eng Phys. 2001 Mar;23(2):99-110.

PMID:
11413062
7.
8.

Simulation of the BP-80 blood pump.

Watanabe N, Karsak O, Neudel F, Kink T, Apel J, Fujimoto T, Reul H, Takatani S.

Artif Organs. 2001 Sep;25(9):733-9.

PMID:
11722352
9.

Studies of turbulence models in a computational fluid dynamics model of a blood pump.

Song X, Wood HG, Day SW, Olsen DB.

Artif Organs. 2003 Oct;27(10):935-7.

PMID:
14616539
10.

Computational fluid dynamics analysis of an intra-cardiac axial flow pump.

Mitoh A, Yano T, Sekine K, Mitamura Y, Okamoto E, Kim DW, Yozu R, Kawada S.

Artif Organs. 2003 Jan;27(1):34-40.

PMID:
12534711
11.

Analysis of flow within a left ventricle model fully assisted with continuous flow through the aortic valve.

Yano T, Funayama M, Sudo S, Mitamura Y.

Artif Organs. 2012 Aug;36(8):714-23. doi: 10.1111/j.1525-1594.2012.01513.x.

PMID:
22882441
12.

Design and performance testing of an axial-flow ventricular assist device developed at the Fu Wai Hospital in Beijing.

Zhang Y, Hu SS, Zhou JY, Sun HS, Zhang H, Zheng Z, Zhu XD, Li GR, Gui XM, Zhan Z, Jin DH.

Int J Artif Organs. 2008 Nov;31(11):983-7.

PMID:
19089800
13.

Computational flow visualization in vibrating flow pump type artificial heart by unstructured grid.

Kato T, Kawano S, Nakahashi K, Yambe T, Nitta S, Hashimoto H.

Artif Organs. 2003 Jan;27(1):41-8.

PMID:
12534712
14.

Shape optimization of the diffuser blade of an axial blood pump by computational fluid dynamics.

Zhu L, Zhang X, Yao Z.

Artif Organs. 2010 Mar;34(3):185-92. doi: 10.1111/j.1525-1594.2009.00799.x.

PMID:
20447042
15.

Computational design and experimental performance testing of an axial-flow pediatric ventricular assist device.

Throckmorton AL, Lim DS, McCulloch MA, Jiang W, Song X, Allaire PE, Wood HG, Olsen DB.

ASAIO J. 2005 Sep-Oct;51(5):629-35.

PMID:
16322729
16.

The use of computational fluid dynamics in the development of ventricular assist devices.

Fraser KH, Taskin ME, Griffith BP, Wu ZJ.

Med Eng Phys. 2011 Apr;33(3):263-80. doi: 10.1016/j.medengphy.2010.10.014. Review.

17.

Design of a continuous flow centrifugal pediatric ventricular assist device.

Throckmorton AL, Wood HG, Day SW, Song X, Click PC, Allaire PE, Olsen DB.

Int J Artif Organs. 2003 Nov;26(11):1015-31.

PMID:
14708831
18.

A validated computational fluid dynamics model to estimate hemolysis in a rotary blood pump.

Arvand A, Hormes M, Reul H.

Artif Organs. 2005 Jul;29(7):531-40.

PMID:
15982281
19.
20.

Numerical, hydraulic, and hemolytic evaluation of an intravascular axial flow blood pump to mechanically support Fontan patients.

Throckmorton AL, Kapadia JY, Chopski SG, Bhavsar SS, Moskowitz WB, Gullquist SD, Gangemi JJ, Haggerty CM, Yoganathan AP.

Ann Biomed Eng. 2011 Jan;39(1):324-36. doi: 10.1007/s10439-010-0159-3.

PMID:
20839054
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