Biomedical Engineering Reference
In-Depth Information
28. Melchionna S, Kaxiras E, Bernaschi M, Succi S (2011) Endothelial shear stress from large-
scale blood flow simulations. Phil Trans Royal Soc A: Math, Phys Eng Sci 369(1944):2354
-2361, DOI 10.1098/rsta.2011.0042, URL http://rsta.royalsocietypublishing.org/content/369/
1944/2354.abstract
29. Ouared R, Chopard B (2005) Lattice boltzmann simulations of blood flow: Non-Newtonian
rheology and clotting processes. J Stat Phys 121:209-221
30. Pahakis M, Kosky J, Dull R, Tarbell J (2007) The role of endothelial glycocalyx components in
mechanotransduction of fluid shear stress. Biochem Biophys Res Comm 355(1):228-233
31. Peters A, Melchionna S, Kaxiras E, Latt J, Sircar J, Bernaschi M, Bisson M, Succi S (2010)
Multiscale simulation of cardiovascular flows on the IBM Bluegene/P: full Heart-Circulation
system at Red-Blood cell resolution. In: Proceedings of the 2010 ACM/IEEE international
conference for high performance computing, networking, storage and analysis, IEEE Com-
puter Society, pp 1-10
32. Pontrelli G, Ubertini S, Succi S (2009) The unstructured lattice boltzmann method for
non-newtonian flows. J Stat Mech Theory & Exp, P06005:1-13
33. Pontrelli G, Halliday I, Spencer T, Care C, K ¨ enig C, Collins M (2011) Near wall hemody-
namics: Modelling the glycocalyx and the endothelium surface. Proceedings micro and nano
flows conference, MNF2011, CD rom
34. Pontrelli G, K¨enig C, Halliday I, Spencer T, Collins M, Long Q, Succi S (2011) Modelling
wall shear stress in small arteries using the lattice boltzmann method: Influence of the
endothelial wall profile. Med Eng Phys 33(7):832-839
35. Reichlin T, Wild A, D¨rrenberger M, Daniels A, Aebi U, Hunziker P, Stolz M (2005)
Investigating native coronary artery endothelium in situ and in cell culture by scanning force
microscopy. J Structural Biol 152:52-63
36. Rybicki FJ, Otero HJ, Steigner ML, Vorobiof G, Nallamshetty L, Mitsouras D, Ersoy H,
Mather RT, Judy PF, Cai T, Coyner K, Schultz K, Whitmore AG, Di Carli MF (2008) Initial
evaluation of coronary images from 320-detector row computed tomography. Intl J Cardiovasc
Imaging 24(5):535-546
37. Schulz M, Krafczyk M, Tolke J, Rank E (2002) Parallelization strategies and efficiency of
CFD computations in complex geometries using the lattice boltzmann methods on high-
performance computers. In: Breuer M, Durst F, Zenger C (eds) High performance scientific
and engineering computing, Proceedings of the 3rd international Fortwihr conference on
HPESC, Erlangen, March 12-14, 2001, vol 21 of Lecture notes in computational science and
engineering, Springer
38. Secomb T, Hsu R, Pries A (2002) Blood flow and red blood cell deformation in nonuniform
capillaries: Effects of the endothelial surface layer. Microcirculation 9:189-196
39. Shaaban AM, Duerinckx AJ (2000) Wall shear stress and early atherosclerosis: A review. AJR
Am J Roentgenol 174(6):1657-1665
40. Sherman TF (1981) On connecting large vessels to small. the meaning of murray's law. J Gen
Physiol 78(4):431 -453, DOI 10.1085/jgp.78.4.431, URL http://jgp.rupress.org/content/78/4/
431.abstract
41. Succi S (2001) The lattice Boltzmann equation for fluid dynamics and beyond. Oxford
University Press, USA
42. Vincent P, Sherwin S, Weinberg P (2008) Viscous flow over outflow slits covered by an
anisotropic brinkman medium: A model of flow above interendothelial cell cleft. Phys Fluids
20(6):063,106
43. Vorp DA, Steinman DA, Ethier CR (2001) Computational modeling of arterial biomechanics.
Comput Sci Eng pp 51-64
44. Weinbaum S, Tarbell J, Damiano E (2007) The structure and the function of the endothelial
glycocalyx layer. Ann Rev Biom Eng 9(6.1):121-167
45. Wellein G, Zeiser T, Hager G, Donath S (2006) On the single processor performance of simple
lattice boltzmann kernels. Comput Fluids 35(8-9):910-919
46. Zou Q, He X (1997) On pressure and velocity boundary conditions for the lattice boltzmann
BGK model. Phys Fluids 9(6):1591
Search WWH ::




Custom Search